UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf ·...
Transcript of UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf ·...
![Page 1: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/1.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
UNIVERSIDAD DE GUANAJUATO
M. Sabido
Efectos del Minisuperespacio Deformado en Cosmología
DEPARTAMENTO DE FISICA
![Page 2: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/2.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
PLAN OF THE TALK
INTRODUCTION, MOTIVATION !NC-GRAVITY !NC-COSMOLOGY !NC AND LAMBDA !FINAL REMARKS
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Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
INTRODUCTION
![Page 4: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/4.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
INTRODUCTION
Noncommutativity of space time is an old idea (Snyder Phys. Rev. 71 (1947)
![Page 5: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/5.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
INTRODUCTION
Noncommutativity of space time is an old idea (Snyder Phys. Rev. 71 (1947)
There are physical systems that can easily be described by assuming that coordinates do not commute.
![Page 6: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/6.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
INTRODUCTION
Noncommutativity of space time is an old idea (Snyder Phys. Rev. 71 (1947)
There are physical systems that can easily be described by assuming that coordinates do not commute.
For the last decade it has attracted a lot of attention in connection to string theory. N. Seiberg and E. Witten, JHEP 9909:032 (1999).
![Page 7: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/7.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
INTRODUCTION
Noncommutativity of space time is an old idea (Snyder Phys. Rev. 71 (1947)
There are physical systems that can easily be described by assuming that coordinates do not commute.
For the last decade it has attracted a lot of attention in connection to string theory. N. Seiberg and E. Witten, JHEP 9909:032 (1999).
An immense amount of work has been done in noncommutative gauge theory.
![Page 8: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/8.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
INTRODUCTION
Noncommutativity of space time is an old idea (Snyder Phys. Rev. 71 (1947)
There are physical systems that can easily be described by assuming that coordinates do not commute.
For the last decade it has attracted a lot of attention in connection to string theory. N. Seiberg and E. Witten, JHEP 9909:032 (1999).
An immense amount of work has been done in noncommutative gauge theory.
Unfortunately on the gravity side of things, the story has been more complex.
![Page 9: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/9.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NC- GRAVITY
![Page 10: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/10.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
It was shown from string theory that noncommutative space-time arises in the low energy limit, of open strings in the presence of NS B field (N.
Seiberg and E. Witten JHEP 2000).
Using different regularization methods either a commutative or a non commutative gauge theory arises.
NC- GRAVITY
![Page 11: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/11.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
It was shown from string theory that noncommutative space-time arises in the low energy limit, of open strings in the presence of NS B field (N.
Seiberg and E. Witten JHEP 2000).
Using different regularization methods either a commutative or a non commutative gauge theory arises.
Consider a theory invariant under the action of a Lie group G, with gauge group Aμ and a mater field Φ, that transforms in the adjoint representation
NC- GRAVITY
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Aµ = µ + i [, Aµ] , = i [, ] ,
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
It was shown from string theory that noncommutative space-time arises in the low energy limit, of open strings in the presence of NS B field (N.
Seiberg and E. Witten JHEP 2000).
Using different regularization methods either a commutative or a non commutative gauge theory arises.
Consider a theory invariant under the action of a Lie group G, with gauge group Aμ and a mater field Φ, that transforms in the adjoint representation
NC- GRAVITY
![Page 13: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/13.jpg)
Aµ = µ + i [, Aµ] , = i [, ] ,
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
It was shown from string theory that noncommutative space-time arises in the low energy limit, of open strings in the presence of NS B field (N.
Seiberg and E. Witten JHEP 2000).
Using different regularization methods either a commutative or a non commutative gauge theory arises.
Consider a theory invariant under the action of a Lie group G, with gauge group Aμ and a mater field Φ, that transforms in the adjoint representation
For the noncomutative theory, the gauge transformations are:
NC- GRAVITY
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Aµ = µ + i [, Aµ] , = i [, ] ,
bAµ = µ
+ i , Aµ
, b
= i ,
.
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
It was shown from string theory that noncommutative space-time arises in the low energy limit, of open strings in the presence of NS B field (N.
Seiberg and E. Witten JHEP 2000).
Using different regularization methods either a commutative or a non commutative gauge theory arises.
Consider a theory invariant under the action of a Lie group G, with gauge group Aμ and a mater field Φ, that transforms in the adjoint representation
For the noncomutative theory, the gauge transformations are:
NC- GRAVITY
![Page 15: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/15.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NC- GRAVITY
![Page 16: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/16.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
Because the result should be independent of the regularization scheme both theories should be equivalent the a map between them must exist. This is the Seiberg-Witten map, which lets us write the noncommutative gauge fields from the commutative ones.
NC- GRAVITY
![Page 17: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/17.jpg)
(, A) = +14µ µ, A+O
2
,
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
Because the result should be independent of the regularization scheme both theories should be equivalent the a map between them must exist. This is the Seiberg-Witten map, which lets us write the noncommutative gauge fields from the commutative ones.
NC- GRAVITY
![Page 18: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/18.jpg)
(, A) = +14µ µ, A+O
2
, Fµ = Fµ +
14
2 Fµ, FA, DFµ + Fµ
+O
2
.
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
Because the result should be independent of the regularization scheme both theories should be equivalent the a map between them must exist. This is the Seiberg-Witten map, which lets us write the noncommutative gauge fields from the commutative ones.
NC- GRAVITY
![Page 19: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/19.jpg)
(, A) = +14µ µ, A+O
2
, Fµ = Fµ +
14
2 Fµ, FA, DFµ + Fµ
+O
2
.
(, A) = 14µ Aµ, (D + )+O
2
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
Because the result should be independent of the regularization scheme both theories should be equivalent the a map between them must exist. This is the Seiberg-Witten map, which lets us write the noncommutative gauge fields from the commutative ones.
NC- GRAVITY
![Page 20: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/20.jpg)
(, A) = +14µ µ, A+O
2
,
Aµ (A) = Aµ 14 A , Aµ + Fµ+O
2
,
Fµ = Fµ +14
2 Fµ, FA, DFµ + Fµ
+O
2
.
(, A) = 14µ Aµ, (D + )+O
2
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
Because the result should be independent of the regularization scheme both theories should be equivalent the a map between them must exist. This is the Seiberg-Witten map, which lets us write the noncommutative gauge fields from the commutative ones.
NC- GRAVITY
![Page 21: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/21.jpg)
(, A) = +14µ µ, A+O
2
,
Aµ (A) = Aµ 14 A , Aµ + Fµ+O
2
,
Fµ = Fµ +14
2 Fµ, FA, DFµ + Fµ
+O
2
.
(, A) = 14µ Aµ, (D + )+O
2
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
Because the result should be independent of the regularization scheme both theories should be equivalent the a map between them must exist. This is the Seiberg-Witten map, which lets us write the noncommutative gauge fields from the commutative ones.
From these equations we can write the noncommutative lagrangian and the noncommutative theory. This results where reproduced by J. Wess independent of string theory (Wess , EPJC 2005).
NC- GRAVITY
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Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
GR
(O. Obregon, H.Compean, C. Ramirez and M.S., PRD 68 (2003) .
NC- GRAVITY
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Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
MOTIVATION
![Page 24: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/24.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
MOTIVATION
We need an alternative
![Page 25: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/25.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
MOTIVATION
We need an alternative
Minisuperspace Models
+
![Page 26: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/26.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
MOTIVATION
We need an alternative
Minisuperspace Models
+Canonical Quantization
+
![Page 27: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/27.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
MOTIVATION
We need an alternative
Minisuperspace Models
+Canonical Quantization
+Noncommutative Quantum Mechanics
![Page 28: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/28.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
MOTIVATION
We need an alternative
Minisuperspace Models
+Canonical Quantization
+Noncommutative Quantum Mechanics
_________________________
![Page 29: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/29.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
MOTIVATION
We need an alternative
Minisuperspace Models
+Canonical Quantization
+Noncommutative Quantum Mechanics
_________________________Noncommutative Quantum Cosmology
H. Compeán, O.Obregon and C. Ramirez PRL 88 (2002)
![Page 30: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/30.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
In quantum mechanics we have
MOTIVATION
![Page 31: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/31.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
In quantum mechanics we have
Being gravity the theory of space time, quantization gravity could be interpreted as a quantization of space time
MOTIVATION
![Page 32: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/32.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
In quantum mechanics we have
Being gravity the theory of space time, quantization gravity could be interpreted as a quantization of space time
What happens if space time does not commute?
MOTIVATION
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Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
MOTIVATION
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Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
In analogy with quantum mechanics
MOTIVATION
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Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
In analogy with quantum mechanics
MOTIVATION
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Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
In analogy with quantum mechanics
We have a minimal scale we can probe
MOTIVATION
![Page 37: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/37.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
In analogy with quantum mechanics
We have a minimal scale we can probe
This deformation can be encoded in Moyal product of functions
MOTIVATION
![Page 38: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/38.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
In analogy with quantum mechanics
We have a minimal scale we can probe
This deformation can be encoded in Moyal product of functions
MOTIVATION
![Page 39: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/39.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
In analogy with quantum mechanics
We have a minimal scale we can probe
This deformation can be encoded in Moyal product of functions
which yields the noncommutative Schrodinger equation (L. Mezincescu ArXiv:hep-th\0007046)
MOTIVATION
![Page 40: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/40.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
In analogy with quantum mechanics
We have a minimal scale we can probe
This deformation can be encoded in Moyal product of functions
which yields the noncommutative Schrodinger equation (L. Mezincescu ArXiv:hep-th\0007046)
MOTIVATION
![Page 41: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/41.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVE QM
![Page 42: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/42.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
We may recover the original commutation relations with the variables
NONCOMMUTATIVE QM
![Page 43: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/43.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
We may recover the original commutation relations with the variables
NONCOMMUTATIVE QM
![Page 44: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/44.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
We may recover the original commutation relations with the variables
so the effects are encoded only on the potential
NONCOMMUTATIVE QM
![Page 45: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/45.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
We may recover the original commutation relations with the variables
so the effects are encoded only on the potential
NONCOMMUTATIVE QM
![Page 46: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/46.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
We may recover the original commutation relations with the variables
so the effects are encoded only on the potential
And the NC equation takes a very simple form
NONCOMMUTATIVE QM
![Page 47: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/47.jpg)
r2 + V
x+
2P
y
, y
2P
x
(x, y) = E (x, y).
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
We may recover the original commutation relations with the variables
so the effects are encoded only on the potential
And the NC equation takes a very simple form
NONCOMMUTATIVE QM
![Page 48: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/48.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
The original proposal for NCQC was the Kantowski-Sachs model
WDW equation for KS
NC COSMOLOGY
2
posal in order to explore the influence of noncommuta-tivity at early times, by the introduction of an effectivenoncommutativity in quantum cosmology. Instead of adeformation of space-time, we consider a “deformationof minisuperspace”.
We will assume that the minisuperspace variables donot commute, as it has been proposed for the space-time coordinates. Our proposal is inspired in variousrelated results in the literature, some of them alreadyreferred here, as is the case of the Seiberg-Witten map[9], where by demanding gauge invariance, a redefinitionof the gauge fields as an expansion on the noncommu-tativity parameters is obtained. As a consequence ofspace-time noncommutativity, the fields do not commuteamong them in a specific manner dictated by the Moyalproduct. In our ansatz, we propose a simple and di-rect noncommutativity among certain components of thegravitational field.
It is well known that already in the usual spacetime,noncommutativity is usually defined in the “preferred”frame of cartesian coordinates, where the noncommuta-tive parameters are taken to be constant. For any othercoordinate systems, the corresponding noncommutativ-ity will be, in general, in terms of parameters relatedin a complicated manner to those of cartesian coordi-nates. For the even-dimensional case, the spacetimes canbe interpreted as symplectic manifolds with the noncom-mutativity parameters playing the role of a symplecticform. In this case, Darboux’s theorem ensures that al-ways, locally, there exists a coordinate system in whichthe components of the symplectic form are constant. Instring theory this is assumed when a ‘constant’ B-field isconsidered.
On the other hand, the Seiberg-Witten map for gravi-tation has been proposed in [13], where noncommutativetetrads and connections are computed. In the case ofquantum cosmology, the minisuperspace variables playthe role of the “coordinates” of the configuration space.Thus, it seems reasonable to propose a kind of noncom-mutativity among these specific gravitational variables,as it is the case in standard spacetime, when cartesian co-ordinates are selected. From the canonical quantizationof a cosmological model a quantum mechanical version,with a finite number of degrees of freedom, of the generalWheeler-de Witt equation for general relativity arises. Inthis way, quantum cosmology is usually understood as aquantum mechanical model of the universe. We will thenfurther assume, that it can be proceeded as in standardnoncommutative quantum mechanics.
The noncommutativity we propose, can be reformu-lated in terms of a Moyal deformation of the Wheeler-DeWitt equation, similar to the case of the noncommu-tative Schrodinger equation [23]. Actually, cosmology de-pends only on time and a Moyal product of functions ofonly one variable is trivially realized. Other authors haveworked out noncommutativity in the early universe, how-
ever without considering the gravitational field. In Ref.[24] the noncommutativity of space-time is interpretedas a magnetic field on a horizon scale. In [25, 26], it isargued that noncommutativity affecting matter or gaugefields could have played an important role to produceinflation.
As an example of our proposal, we will consider thecosmological model of the Kantowski-Sachs metric. Inthe parametrization due to Misner, this metric looks like[27]:
ds2 = −N2dt2 + e2√
3βdr2 + e−2√
3βe−2√
3Ω(dθ2 + sin2θdϕ2).(1)
The corresponding Wheeler-DeWitt equation, in a par-ticular factor ordering, can be written as
exp(√
3β + 2√
3Ω)[−P 2Ω + P 2
β − 48exp(−2√
3Ω)]ψ(Ω,β) = 0,
(2)
where PΩ = −i ∂∂Ω and Pβ = −i ∂
∂β. Thus, in this
parametrization the Wheeler-DeWitt equation has a sim-ple form, which can be formally identified with usualquantum mechanics in cartesian coordinates.
The solutions to this Wheeler-DeWitt equation aregiven by [27]
ψ±ν (β, Ω) = e±iν
√3βKiν(4e−
√3Ω), (3)
where Kiν is the modified Bessel function. Packet wavesof these solutions have been constructed as superpo-sitions of these solutions. Summing over eiν
√3β and
e−iν√
3β to make real trigonometric functions, the “Gaus-sian” state
Ψ(β, Ω) = 2iN! ∞
0ν"
ψ+ν (β, Ω) − ψ−ν (β, Ω)
#
dν
= N e−√
3Ωsinh(√
3β)exp[−2√
3e−√
3Ωcosh(√
3β)], (4)
has been obtained [27, 28]. A possible connection withquantum black holes [28, 29] and quantum wormholes[30, 31] has been suggested.
For our noncommutative proposal of quantum cosmol-ogy, we will follow the procedure outlined above. We willassume that the “cartesian coordinates” Ω and β of theKantowski-Sachs minisuperspace obey a kind of commu-tation relation, like the ones in noncommutative quantummechanics [23]
[Ω,β] = iθ. (5)
As stated above, this is a particular ansatz in these con-figuration coordinates. The relation with other minisu-perspace coordinates would follow in a similar way as instandard spacetime.
![Page 49: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/49.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NC COSMOLOGY
![Page 50: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/50.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
We may recover the original commutation relations with the variables
NC COSMOLOGY
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Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
We may recover the original commutation relations with the variables
NC COSMOLOGY
![Page 52: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/52.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
We may recover the original commutation relations with the variables
so the effects are encoded only on the potential
NC COSMOLOGY
![Page 53: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/53.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
We may recover the original commutation relations with the variables
so the effects are encoded only on the potential
NC COSMOLOGY
![Page 54: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/54.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
We may recover the original commutation relations with the variables
so the effects are encoded only on the potential
from this we can find the NCWDW equation for the KS (H. Compeán, O.Obregon and C. Ramirez PRL 88 (2002), J. Lopez,O. Obregon M. S., Phys Rev D 74 084024, 2006)
NC COSMOLOGY
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Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
We may recover the original commutation relations with the variables
so the effects are encoded only on the potential
from this we can find the NCWDW equation for the KS (H. Compeán, O.Obregon and C. Ramirez PRL 88 (2002), J. Lopez,O. Obregon M. S., Phys Rev D 74 084024, 2006)
NC COSMOLOGY
![Page 56: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/56.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
4
02
46
810
Ω-10
-5
0
5
10
β0
0.1
0.2#Ψ#2
02
46
8Ω
FIG. 1: Variation of |Ψ|2 with respect to Ω and β, at the valueθ = 0. It shows only one possible universe around Ω = 4.812and β = 0.
02
46
810
Ω-10
-5
0
5
10
β0
0.10.20.30.4
#Ψ#2
02
46
8Ω
FIG. 2: Variation of |Ψ|2 with respect to Ω and β, at thevalue θ = 4. It shows many peaks corresponding to differentpossible universes.
4 6 8 10 Ω
0.1
0.2
0.3
0.4
#Ψ#2
FIG. 3: Variation of |Ψ|2 for θ = 4, along the line of the mainpeaks in figure 2. It shows the tunneling possibility amongthese states.
map was used to construct a deformed Einstein gravity.By means of this result, one could try to find the corre-sponding noncommutative Wheeler-DeWitt equation forspecific cosmological models. In that case the θ termscorresponding to spacetime noncommutativity could beconsidered in order to search for another way to definea noncommutative cosmological model, even though cos-mology depends only on time. The computation of thisWheeler-DeWitt equation is a very complicated task, be-cause at each θ order higher derivative terms will appear.If such a noncommutative Hamiltonian model could bedefined, its quantum cosmological solutions and the cor-responding states could be compared with those obtainedby means of our noncommutative minisuperspace pro-posal. In this context the θ parameter we have proposed(5), could be a kind of effective noncommutative param-eter. Such an approach is currently under exploration.
Further work in more realistic cosmological models, in-cluding matter, will be needed to search for constraintson the range of values of the θ parameter in the earlystages of evolution of the universe. In our proposal thisis in principle possible, because it means to enlarge theminisuperspace configuration space and then consider anappropriate commutativity among its coordinates. Fol-lowing these lines, we will consider also the supersym-metric extension [32] to these models.
In previous works, the Wheeler-DeWitt equation ofthe Kantowski-Sachs model has been related to quan-tum black holes [28, 29] and wormholes [30, 31]. It couldbe interesting to search for an extension of our resultsto possible noncommutative versions of these quantumgravitational systems.
Our simple proposal provides a picture of the dramaticinfluence that noncommutativity could have played atearly stages of the universe. We have been able to ob-tain and work with an exact quantum solution for theKantowski-Sachs metric, without the need to expandon the θ parameter. The corresponding wave packetexhibits new stable states of the universe with similarprobabilities, showing peaks around β values differentfrom zero. A tunneling process could happen betweenthese states. By these means there are different possi-ble universes (states) from which our present universecould have evolved and also could have tunneled in thepast, from one universe (state) to other one. Furtherwork is needed to analyze other physical consequences ofthis and other more realistic quantum cosmological mod-els, taking into account the influence of matter. It willbe also necessary to extend these ideas to other, moregeneral gravitational models. In particular, it would bevery interesting to reinterpret the results of reference [33],concerning the influence of a primordial magnetic field inclassical cosmology. The corresponding quantum modelshould be constructed and compared with our proposalin terms of the noncommutativity of the minisuperspace.Results in these directions and those mentioned above
4
02
46
810
Ω-10
-5
0
5
10
β0
0.1
0.2#Ψ#2
02
46
8Ω
FIG. 1: Variation of |Ψ|2 with respect to Ω and β, at the valueθ = 0. It shows only one possible universe around Ω = 4.812and β = 0.
02
46
810
Ω-10
-5
0
5
10
β0
0.10.20.30.4
#Ψ#2
02
46
8Ω
FIG. 2: Variation of |Ψ|2 with respect to Ω and β, at thevalue θ = 4. It shows many peaks corresponding to differentpossible universes.
4 6 8 10 Ω
0.1
0.2
0.3
0.4
#Ψ#2
FIG. 3: Variation of |Ψ|2 for θ = 4, along the line of the mainpeaks in figure 2. It shows the tunneling possibility amongthese states.
map was used to construct a deformed Einstein gravity.By means of this result, one could try to find the corre-sponding noncommutative Wheeler-DeWitt equation forspecific cosmological models. In that case the θ termscorresponding to spacetime noncommutativity could beconsidered in order to search for another way to definea noncommutative cosmological model, even though cos-mology depends only on time. The computation of thisWheeler-DeWitt equation is a very complicated task, be-cause at each θ order higher derivative terms will appear.If such a noncommutative Hamiltonian model could bedefined, its quantum cosmological solutions and the cor-responding states could be compared with those obtainedby means of our noncommutative minisuperspace pro-posal. In this context the θ parameter we have proposed(5), could be a kind of effective noncommutative param-eter. Such an approach is currently under exploration.
Further work in more realistic cosmological models, in-cluding matter, will be needed to search for constraintson the range of values of the θ parameter in the earlystages of evolution of the universe. In our proposal thisis in principle possible, because it means to enlarge theminisuperspace configuration space and then consider anappropriate commutativity among its coordinates. Fol-lowing these lines, we will consider also the supersym-metric extension [32] to these models.
In previous works, the Wheeler-DeWitt equation ofthe Kantowski-Sachs model has been related to quan-tum black holes [28, 29] and wormholes [30, 31]. It couldbe interesting to search for an extension of our resultsto possible noncommutative versions of these quantumgravitational systems.
Our simple proposal provides a picture of the dramaticinfluence that noncommutativity could have played atearly stages of the universe. We have been able to ob-tain and work with an exact quantum solution for theKantowski-Sachs metric, without the need to expandon the θ parameter. The corresponding wave packetexhibits new stable states of the universe with similarprobabilities, showing peaks around β values differentfrom zero. A tunneling process could happen betweenthese states. By these means there are different possi-ble universes (states) from which our present universecould have evolved and also could have tunneled in thepast, from one universe (state) to other one. Furtherwork is needed to analyze other physical consequences ofthis and other more realistic quantum cosmological mod-els, taking into account the influence of matter. It willbe also necessary to extend these ideas to other, moregeneral gravitational models. In particular, it would bevery interesting to reinterpret the results of reference [33],concerning the influence of a primordial magnetic field inclassical cosmology. The corresponding quantum modelshould be constructed and compared with our proposalin terms of the noncommutativity of the minisuperspace.Results in these directions and those mentioned above
NC COSMOLOGY
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Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVE COSMOLOGY
![Page 58: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/58.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
If we consider that the noncommtuative field can be written as a series expansion on the noncommutative parameter, furthermore this expansion can be calculated from the full noncommutative theory.
NONCOMMUTATIVE COSMOLOGY
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Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
If we consider that the noncommtuative field can be written as a series expansion on the noncommutative parameter, furthermore this expansion can be calculated from the full noncommutative theory.
based on this facts a new commutation relation is proposed
NONCOMMUTATIVE COSMOLOGY
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[,] = i,
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
If we consider that the noncommtuative field can be written as a series expansion on the noncommutative parameter, furthermore this expansion can be calculated from the full noncommutative theory.
based on this facts a new commutation relation is proposed
NONCOMMUTATIVE COSMOLOGY
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[,] = i,
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
If we consider that the noncommtuative field can be written as a series expansion on the noncommutative parameter, furthermore this expansion can be calculated from the full noncommutative theory.
based on this facts a new commutation relation is proposed
This is an effective noncommutativity between the minisuperspace fields, and is similar to the modification used in noncommutative quantum mechanics. H. Compean, O. Obregón and C. Ramírez PRL 88 (2002), W. Guzmán, M.S, J. Socorro Phys. Rev D (2007), )
NONCOMMUTATIVE COSMOLOGY
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Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVE COSMOLOGY
One of a noncommutative mini-superspace point to the possibility of late time acceleration of the universe. W. Guzmán, M.S. and J.Socorro PRD (2007).
![Page 63: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/63.jpg)
0.2 0.4 0.6 0.8 1t
0.2
0.4
0.6
0.8
1
Ε
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVE COSMOLOGY
One of a noncommutative mini-superspace point to the possibility of late time acceleration of the universe. W. Guzmán, M.S. and J.Socorro PRD (2007).
![Page 64: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/64.jpg)
=2
2
"1 µ
1
p6
tanh [3µ(2 6)t]
!#,
0.2 0.4 0.6 0.8 1t
0.2
0.4
0.6
0.8
1
Ε
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVE COSMOLOGY
One of a noncommutative mini-superspace point to the possibility of late time acceleration of the universe. W. Guzmán, M.S. and J.Socorro PRD (2007).
![Page 65: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/65.jpg)
=2
2
"1 µ
1
p6
tanh [3µ(2 6)t]
!#,
0.2 0.4 0.6 0.8 1t
0.2
0.4
0.6
0.8
1
Ε
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVE COSMOLOGY
One of a noncommutative mini-superspace point to the possibility of late time acceleration of the universe. W. Guzmán, M.S. and J.Socorro PRD (2007).
One can ask if the noncommutative deformation can be related to the late time acceleration or to the cosmological constant. !There was also evidence that noncommutativity reduced the number of states for a Schwarzchild black Hole (J. Lopez,O. Obregon M. S., Phys Rev D 74 084024, 2006)
![Page 66: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/66.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
By the same procedure as in the black hole, we use the appropriate metric for the universe!
And the NCWDW equation is!
![Page 67: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/67.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
By comparing these equations we arrive to the relationships
From which the vacuum density energy is
And the ratio of the observed to calculated densities is
For kmax=Mp we only need ΘPφ of order 240!! (E. Mena, O. Obregon, MS, MPLA 2009)
![Page 68: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/68.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
Is there a classical interpretation and formulation of NC Quantum Cosmology?
We want
This can be constructed from Hamiltonian Manifolds (W. Guzman,M.S., J. Socorro PLB 2011)
PRELIMINARIES: NC COSMOLOGY
In order to find the NC metric, we needed that the noncommutative model had a classical limit.
![Page 69: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/69.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
PRELIMINARIES: NC CLASSICAL MECHANICS
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Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
Lets start with the manifold (M2n,ω) and ω in invertible.
PRELIMINARIES: NC CLASSICAL MECHANICS
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Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
In local coordinates xμ we have X= Xμ∂μ. We say is locally Hamiltonian if
Lets start with the manifold (M2n,ω) and ω in invertible.
PRELIMINARIES: NC CLASSICAL MECHANICS
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LX d(iX) = 0.
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
In local coordinates xμ we have X= Xμ∂μ. We say is locally Hamiltonian if
Lets start with the manifold (M2n,ω) and ω in invertible.
PRELIMINARIES: NC CLASSICAL MECHANICS
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LX d(iX) = 0.
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
In local coordinates xμ we have X= Xμ∂μ. We say is locally Hamiltonian if
Lets start with the manifold (M2n,ω) and ω in invertible.
If iXω is exact then M is a Hamiltonian manifold
PRELIMINARIES: NC CLASSICAL MECHANICS
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iX = dH = µ H
x
LX d(iX) = 0.
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
In local coordinates xμ we have X= Xμ∂μ. We say is locally Hamiltonian if
Lets start with the manifold (M2n,ω) and ω in invertible.
If iXω is exact then M is a Hamiltonian manifold
PRELIMINARIES: NC CLASSICAL MECHANICS
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Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
PRELIMINARIES: NC CLASSICAL MECHANICS
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Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
The Poisson brackets are defined as
PRELIMINARIES: NC CLASSICAL MECHANICS
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f, q = p (Xf , Xg) f, q (p) =f
xµµ g
x
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
The Poisson brackets are defined as
PRELIMINARIES: NC CLASSICAL MECHANICS
![Page 78: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/78.jpg)
and for the coordinates
f, q = p (Xf , Xg) f, q (p) =f
xµµ g
x
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
The Poisson brackets are defined as
PRELIMINARIES: NC CLASSICAL MECHANICS
![Page 79: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/79.jpg)
and for the coordinates
f, q = p (Xf , Xg) f, q (p) =f
xµµ g
x
xµ, x = µ
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
The Poisson brackets are defined as
PRELIMINARIES: NC CLASSICAL MECHANICS
![Page 80: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/80.jpg)
and for the coordinates
f, q = p (Xf , Xg) f, q (p) =f
xµµ g
x
xµ, x = µ
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
The Poisson brackets are defined as
we have in the T*M for the coordinates
PRELIMINARIES: NC CLASSICAL MECHANICS
![Page 81: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/81.jpg)
and for the coordinates
f, q = p (Xf , Xg) f, q (p) =f
xµµ g
x
xµ, x = µ
xµ = (q1, q2, .., qn, p1, p2, ..., pn)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
The Poisson brackets are defined as
we have in the T*M for the coordinates
PRELIMINARIES: NC CLASSICAL MECHANICS
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and for the coordinates
f, q = p (Xf , Xg) f, q (p) =f
xµµ g
x
xµ, x = µ
xµ = (q1, q2, .., qn, p1, p2, ..., pn)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
The Poisson brackets are defined as
we have in the T*M for the coordinates
The canonical 2-form
PRELIMINARIES: NC CLASSICAL MECHANICS
![Page 83: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/83.jpg)
and for the coordinates
f, q = p (Xf , Xg) f, q (p) =f
xµµ g
x
xµ, x = µ
xµ = (q1, q2, .., qn, p1, p2, ..., pn)
c =12c
µdxµdx , cµ =
0 ij
ij 0
.
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
The Poisson brackets are defined as
we have in the T*M for the coordinates
The canonical 2-form
PRELIMINARIES: NC CLASSICAL MECHANICS
![Page 84: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/84.jpg)
and for the coordinates
f, q = p (Xf , Xg) f, q (p) =f
xµµ g
x
xµ, x = µ
xµ = (q1, q2, .., qn, p1, p2, ..., pn)
c =12c
µdxµdx , cµ =
0 ij
ij 0
.
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
The Poisson brackets are defined as
we have in the T*M for the coordinates
The canonical 2-form
From which we calculate Hamilton’s equations
PRELIMINARIES: NC CLASSICAL MECHANICS
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and for the coordinates
f, q = p (Xf , Xg) f, q (p) =f
xµµ g
x
xµ, x = µ
xµ = (q1, q2, .., qn, p1, p2, ..., pn)
c =12c
µdxµdx , cµ =
0 ij
ij 0
.
iXH c = dH dqi
dt = Hpi
,dpj
dt = Hpj .
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
The Poisson brackets are defined as
we have in the T*M for the coordinates
The canonical 2-form
From which we calculate Hamilton’s equations
PRELIMINARIES: NC CLASSICAL MECHANICS
![Page 86: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/86.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
PRELIMINARIES: NC CLASSICAL MECHANICS
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Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
A noncommutative classical mechanics, is a Hamiltonian manifold, for which the exact 2-form is given by a non degenerate ωnc.
PRELIMINARIES: NC CLASSICAL MECHANICS
![Page 88: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/88.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
A noncommutative classical mechanics, is a Hamiltonian manifold, for which the exact 2-form is given by a non degenerate ωnc.
The equations of motion are
PRELIMINARIES: NC CLASSICAL MECHANICS
![Page 89: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/89.jpg)
dqi
dt= ij H
pj+ ij H
qj,
dpi
ddt= ij H
qj+ ij H
pj.
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
A noncommutative classical mechanics, is a Hamiltonian manifold, for which the exact 2-form is given by a non degenerate ωnc.
The equations of motion are
PRELIMINARIES: NC CLASSICAL MECHANICS
![Page 90: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/90.jpg)
dqi
dt= ij H
pj+ ij H
qj,
dpi
ddt= ij H
qj+ ij H
pj.
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
A noncommutative classical mechanics, is a Hamiltonian manifold, for which the exact 2-form is given by a non degenerate ωnc.
The equations of motion are
and the Poisson algebra
PRELIMINARIES: NC CLASSICAL MECHANICS
![Page 91: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/91.jpg)
dqi
dt= ij H
pj+ ij H
qj,
dpi
ddt= ij H
qj+ ij H
pj.
qi, qj = ij , qi, pj = i
j , pi, p
j = ij
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
A noncommutative classical mechanics, is a Hamiltonian manifold, for which the exact 2-form is given by a non degenerate ωnc.
The equations of motion are
and the Poisson algebra
PRELIMINARIES: NC CLASSICAL MECHANICS
![Page 92: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/92.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
COSMOLOGIA NO CONMUTATIVA
Minisuperspace Models
+Canonical Quantization
+Noncommutative Quantum Mechanics
________________________
NC Quantum Cosmology
![Page 93: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/93.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
COSMOLOGIA NO CONMUTATIVA
Minisuperspace Models
+Canonical Quantization
+Noncommutative Quantum Mechanics
________________________
NC Quantum Cosmology
Minisuperspace Models
+
![Page 94: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/94.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
COSMOLOGIA NO CONMUTATIVA
Minisuperspace Models
+Canonical Quantization
+Noncommutative Quantum Mechanics
________________________
NC Quantum Cosmology
Simplectic Manifods
Minisuperspace Models
+
![Page 95: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/95.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
COSMOLOGIA NO CONMUTATIVA
Minisuperspace Models
+Canonical Quantization
+Noncommutative Quantum Mechanics
________________________
NC Quantum Cosmology
Simplectic Manifods
_________________________
Minisuperspace Models
+
![Page 96: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/96.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
COSMOLOGIA NO CONMUTATIVA
Minisuperspace Models
+Canonical Quantization
+Noncommutative Quantum Mechanics
________________________
NC Quantum Cosmology
Simplectic Manifods
_________________________
NC Classical Cosmology. Deformed phase space
cosmology.
Minisuperspace Models
+
![Page 97: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/97.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
Deformed Phase Space Cosmology
![Page 98: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/98.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
We can apply this formalism to scalar field cosmology, the approach is straight forward.
Deformed Phase Space Cosmology
![Page 99: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/99.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
We can apply this formalism to scalar field cosmology, the approach is straight forward.
Again we start with Einstein-Hilbert action and find the Hamiltonian
Deformed Phase Space Cosmology
![Page 100: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/100.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
H = e3
112
P 2
12P 2
e6V ()
,
We can apply this formalism to scalar field cosmology, the approach is straight forward.
Again we start with Einstein-Hilbert action and find the Hamiltonian
Deformed Phase Space Cosmology
![Page 101: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/101.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
H = e3
112
P 2
12P 2
e6V ()
,
We can apply this formalism to scalar field cosmology, the approach is straight forward.
Again we start with Einstein-Hilbert action and find the Hamiltonian
for the noncommmutative model we use exact 2-form
Deformed Phase Space Cosmology
![Page 102: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/102.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
H = e3
112
P 2
12P 2
e6V ()
,
µ =
0 1 0 0 0 11 0 0 00 1 0 0
We can apply this formalism to scalar field cosmology, the approach is straight forward.
Again we start with Einstein-Hilbert action and find the Hamiltonian
for the noncommmutative model we use exact 2-form
Deformed Phase Space Cosmology
![Page 103: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/103.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
H = e3
112
P 2
12P 2
e6V ()
,
µ =
0 1 0 0 0 11 0 0 00 1 0 0
, = , p, p = 0,
, p = 1, , p = 1.
We can apply this formalism to scalar field cosmology, the approach is straight forward.
Again we start with Einstein-Hilbert action and find the Hamiltonian
for the noncommmutative model we use exact 2-form
Deformed Phase Space Cosmology
![Page 104: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/104.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
Deformed Phase Space Cosmology
![Page 105: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/105.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
With the new commutation relations we can find the modified Friemann equation and the KG equation.
Deformed Phase Space Cosmology
![Page 106: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/106.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
3
a
a
2
=122 + V () 6a3
a
a
dV
d+ V
32a6
dV
d
2
6V 2
,
With the new commutation relations we can find the modified Friemann equation and the KG equation.
Deformed Phase Space Cosmology
![Page 107: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/107.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
3
a
a
2
=122 + V () 6a3
a
a
dV
d+ V
32a6
dV
d
2
6V 2
,
+ 3
a
a
= dV
d+ 6a3
dV
d+ 6
a
a
V
.
With the new commutation relations we can find the modified Friemann equation and the KG equation.
Deformed Phase Space Cosmology
![Page 108: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/108.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
3
a
a
2
=122 + V () 6a3
a
a
dV
d+ V
32a6
dV
d
2
6V 2
,
+ 3
a
a
= dV
d+ 6a3
dV
d+ 6
a
a
V
.
With the new commutation relations we can find the modified Friemann equation and the KG equation.
We also have the Hamiltonian constraint. (W. Guzmán, M.S,, J. Socorro PLB (2011)
Deformed Phase Space Cosmology
![Page 109: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/109.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVITY AND LAMBDA
![Page 110: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/110.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVITY AND LAMBDA
The results of the dynamical systems analysis have revealed is that, independently of the kind of self- interaction potential considered: i) exponential potential, or ii) cosh-like potential, the noncommutative effects of the kind considered here9 affect not only the early-times dynamics but also modify the late-time behaviour. I. Quiros and O. Obregón, PRD (2011).
![Page 111: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/111.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVITY AND LAMBDA
In the a more general case the noncommutative Friedmann equation for scalar field cosmology where derived, and it is found that noncommutativity could be relevant in the late time dynamics of the universe. W. Guzmán, M.S. and J.Socorro PLB (2011).
The results of the dynamical systems analysis have revealed is that, independently of the kind of self- interaction potential considered: i) exponential potential, or ii) cosh-like potential, the noncommutative effects of the kind considered here9 affect not only the early-times dynamics but also modify the late-time behaviour. I. Quiros and O. Obregón, PRD (2011).
![Page 112: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/112.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVE COSMOLOGY
![Page 113: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/113.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
Let us consider the action for a flat FRW universe a scalar field and cosmological constant as the matter content of the the model.
NONCOMMUTATIVE COSMOLOGY
![Page 114: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/114.jpg)
S =
Zdt
(3aa2
2N+ a3
2
2N+N
!),
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
Let us consider the action for a flat FRW universe a scalar field and cosmological constant as the matter content of the the model.
NONCOMMUTATIVE COSMOLOGY
![Page 115: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/115.jpg)
S =
Zdt
(3aa2
2N+ a3
2
2N+N
!),
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
Let us consider the action for a flat FRW universe a scalar field and cosmological constant as the matter content of the the model.
NONCOMMUTATIVE COSMOLOGY
making the change of variables
![Page 116: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/116.jpg)
S =
Zdt
(3aa2
2N+ a3
2
2N+N
!),
x = m
1a
3/2sinh(m),
y = m
1a
3/2cosh(m),
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
Let us consider the action for a flat FRW universe a scalar field and cosmological constant as the matter content of the the model.
NONCOMMUTATIVE COSMOLOGY
making the change of variables
![Page 117: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/117.jpg)
S =
Zdt
(3aa2
2N+ a3
2
2N+N
!),
x = m
1a
3/2sinh(m),
y = m
1a
3/2cosh(m),
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
Let us consider the action for a flat FRW universe a scalar field and cosmological constant as the matter content of the the model.
NONCOMMUTATIVE COSMOLOGY
making the change of variables
The action takes the form
![Page 118: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/118.jpg)
S =
Zdt
(3aa2
2N+ a3
2
2N+N
!),
x = m
1a
3/2sinh(m),
y = m
1a
3/2cosh(m),
S =
Z 1
2N
x
2 y
2N
!
2
2
x
2 y
2
dt.
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
Let us consider the action for a flat FRW universe a scalar field and cosmological constant as the matter content of the the model.
NONCOMMUTATIVE COSMOLOGY
making the change of variables
The action takes the form
![Page 119: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/119.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVE COSMOLOGY
![Page 120: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/120.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVE COSMOLOGY
The Hamiltonian for this model is
![Page 121: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/121.jpg)
Hc
= N
1
2P 2x
+!2
2x2
N
1
2P 2y
+!2
2y2,
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVE COSMOLOGY
The Hamiltonian for this model is
![Page 122: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/122.jpg)
Hc
= N
1
2P 2x
+!2
2x2
N
1
2P 2y
+!2
2y2,
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVE COSMOLOGY
The Hamiltonian for this model is
Where ω2 is proportional to Λ. For the noncommutative case, we impose noncommutativity among the minisuperspace coordinates and canonical momentum,
![Page 123: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/123.jpg)
Hc
= N
1
2P 2x
+!2
2x2
N
1
2P 2y
+!2
2y2,
y, x = , u, px
= y, py
= 1 + , py
, p
x
= ,
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVE COSMOLOGY
The Hamiltonian for this model is
Where ω2 is proportional to Λ. For the noncommutative case, we impose noncommutativity among the minisuperspace coordinates and canonical momentum,
![Page 124: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/124.jpg)
Hc
= N
1
2P 2x
+!2
2x2
N
1
2P 2y
+!2
2y2,
y, x = , u, px
= y, py
= 1 + , py
, p
x
= ,
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVE COSMOLOGY
The Hamiltonian for this model is
For the noncommutative case we use the shift
Where ω2 is proportional to Λ. For the noncommutative case, we impose noncommutativity among the minisuperspace coordinates and canonical momentum,
![Page 125: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/125.jpg)
Hc
= N
1
2P 2x
+!2
2x2
N
1
2P 2y
+!2
2y2,
y, x = , u, px
= y, py
= 1 + , py
, p
x
= ,
x = x+
2p
y
, y = y
2p
x
,
p
x
= p
x
2y, p
y
= p
y
+
2x,
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVE COSMOLOGY
The Hamiltonian for this model is
For the noncommutative case we use the shift
Where ω2 is proportional to Λ. For the noncommutative case, we impose noncommutativity among the minisuperspace coordinates and canonical momentum,
![Page 126: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/126.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVE COSMOLOGY
![Page 127: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/127.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVE COSMOLOGY
The resulting noncommutative Hamiltonian for this model is
![Page 128: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/128.jpg)
bH =1
2
p2x
p2y
+ !21(xpy + yp
x
) + !22(x
2 y2) .
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVE COSMOLOGY
The resulting noncommutative Hamiltonian for this model is
![Page 129: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/129.jpg)
bH =1
2
p2x
p2y
+ !21(xpy + yp
x
) + !22(x
2 y2) .
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVE COSMOLOGY
The resulting noncommutative Hamiltonian for this model is
Where we defined
![Page 130: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/130.jpg)
bH =1
2
p2x
p2y
+ !21(xpy + yp
x
) + !22(x
2 y2) .
!21 =
4( !2)
4 !22, !2
2 =4(!2 2/4)
4 !22,
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVE COSMOLOGY
The resulting noncommutative Hamiltonian for this model is
Where we defined
![Page 131: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/131.jpg)
bH =1
2
p2x
p2y
+ !21(xpy + yp
x
) + !22(x
2 y2) .
!21 =
4( !2)
4 !22, !2
2 =4(!2 2/4)
4 !22,
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVE COSMOLOGY
The resulting noncommutative Hamiltonian for this model is
Where we defined
The equations of motion are
![Page 132: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/132.jpg)
bH =1
2
p2x
p2y
+ !21(xpy + yp
x
) + !22(x
2 y2) .
!21 =
4( !2)
4 !22, !2
2 =4(!2 2/4)
4 !22,
˙x = x, bH =1
2[2p
x
+ !21y], ˙y = y, bH =
1
2[2p
y
+ !21x],
˙px
= px
, bH =1
2[!2
1 py 2!22x], ˙p
y
= py
, bH =1
2[!2
1 px + 2!22y],
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVE COSMOLOGY
The resulting noncommutative Hamiltonian for this model is
Where we defined
The equations of motion are
![Page 133: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/133.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVE COSMOLOGY
![Page 134: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/134.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVE COSMOLOGY
To solve the equations of motion we propose the change of variables
![Page 135: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/135.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVE COSMOLOGY
To solve the equations of motion we propose the change of variables = x+ y, = y x
![Page 136: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/136.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVE COSMOLOGY
To solve the equations of motion we propose the change of variables = x+ y, = y x
An arrive to a simplified set of equations
![Page 137: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/137.jpg)
!21 +
1
4(4!2
2 + !41) = 0,
+ !21 +
1
4(4!2
2 + !41) = 0,
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVE COSMOLOGY
To solve the equations of motion we propose the change of variables = x+ y, = y x
An arrive to a simplified set of equations
![Page 138: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/138.jpg)
!21 +
1
4(4!2
2 + !41) = 0,
+ !21 +
1
4(4!2
2 + !41) = 0,
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVE COSMOLOGY
To solve the equations of motion we propose the change of variables = x+ y, = y x
An arrive to a simplified set of equations
This equations are very easy to solve for any value of Λ, θ and β.
![Page 139: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/139.jpg)
a3(t) = V0 cosh2
1
4
t
,
-2 -1 1 2 3 4t
2
4
6
8
10
12
a3@tD
2.
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVE COSMOLOGY
Let analyse the case when the cosmological constant is zero, as well as the parameter θ. In this case the solution is very simple, in particular the scale factor is (S. Perez, M.S, C. Yee,Phys. Rev D 2013)
Figure 1: Dynamics of the phase space deformed model for the values X0 = Y0 = 1,δ2 = δ1 = 0,ω = 0andβ = 1. Thesolidlinecorrespondstothe volume of the universe, calculated with the noncommutative model. The dotted line corresponds to the volume of the de Sitter spacetime. For large values of t the behavior is the same.
Comparing the to models we arrive to the relationship
![Page 140: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/140.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVITY AND LAMBDA
![Page 141: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/141.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVITY AND LAMBDA
With this result lets find a model from which to derive Λ. We start with a (4+1) gravity.
![Page 142: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/142.jpg)
I =
Z pg (R ) dtd3xd,
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVITY AND LAMBDA
With this result lets find a model from which to derive Λ. We start with a (4+1) gravity.
![Page 143: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/143.jpg)
I =
Z pg (R ) dtd3xd,
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVITY AND LAMBDA
With this result lets find a model from which to derive Λ. We start with a (4+1) gravity.
After dimensional reduction, the effective 4 dimensional theory is
![Page 144: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/144.jpg)
I =
Z pg (R ) dtd3xd,
L =1
2
aa2 + a2a a+
1
3a3
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVITY AND LAMBDA
With this result lets find a model from which to derive Λ. We start with a (4+1) gravity.
After dimensional reduction, the effective 4 dimensional theory is
![Page 145: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/145.jpg)
I =
Z pg (R ) dtd3xd,
L =1
2
aa2 + a2a a+
1
3a3
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVITY AND LAMBDA
With this result lets find a model from which to derive Λ. We start with a (4+1) gravity.
The hamiltonian for the model is, after an appropriate change of variables
After dimensional reduction, the effective 4 dimensional theory is
![Page 146: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/146.jpg)
I =
Z pg (R ) dtd3xd,
H =1
2
x2 + !2x2
y2 + !2y2
L =1
2
aa2 + a2a a+
1
3a3
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVITY AND LAMBDA
With this result lets find a model from which to derive Λ. We start with a (4+1) gravity.
The hamiltonian for the model is, after an appropriate change of variables
After dimensional reduction, the effective 4 dimensional theory is
![Page 147: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/147.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVITY AND LAMBDA
![Page 148: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/148.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVITY AND LAMBDA
Following the same steps as before we calculate the noncommutative hamiltonian
![Page 149: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/149.jpg)
H =
(pu 2( !2)
4 !22v
2
pv +
2( !2)
4 !22u
2
+
4( !2)2
(4 !22)2+
4(!2 2/4)
4 !22
u2
4( !2)2
(4 !22)2+
4(!2 2/4)
4 !22
v2
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVITY AND LAMBDA
Following the same steps as before we calculate the noncommutative hamiltonian
![Page 150: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/150.jpg)
H =
(pu 2( !2)
4 !22v
2
pv +
2( !2)
4 !22u
2
+
4( !2)2
(4 !22)2+
4(!2 2/4)
4 !22
u2
4( !2)2
(4 !22)2+
4(!2 2/4)
4 !22
v2
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVITY AND LAMBDA
Following the same steps as before we calculate the noncommutative hamiltonian
This can be written in simpler form if we define a 2 dimensional vector potential
![Page 151: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/151.jpg)
H =
(pu 2( !2)
4 !22v
2
pv +
2( !2)
4 !22u
2
+
4( !2)2
(4 !22)2+
4(!2 2/4)
4 !22
u2
4( !2)2
(4 !22)2+
4(!2 2/4)
4 !22
v2
H =nh
(pu Au)2 + !02u2
i
h
(pv Av)2 + !02v2
io
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVITY AND LAMBDA
Following the same steps as before we calculate the noncommutative hamiltonian
This can be written in simpler form if we define a 2 dimensional vector potential
![Page 152: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/152.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVITY AND LAMBDA
![Page 153: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/153.jpg)
!02 4( !2)2
(4 !22)2+
4(!2 2/4)
4 !22
Au 2( !2)
4 !22v, Av 2( !2)
4 !22u
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVITY AND LAMBDA
![Page 154: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/154.jpg)
!02 4( !2)2
(4 !22)2+
4(!2 2/4)
4 !22
Au 2( !2)
4 !22v, Av 2( !2)
4 !22u
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVITY AND LAMBDA
We can calculate the effective magnetic field
![Page 155: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/155.jpg)
!02 4( !2)2
(4 !22)2+
4(!2 2/4)
4 !22
Au 2( !2)
4 !22v, Av 2( !2)
4 !22u
B =4( !2)
4 !22
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVITY AND LAMBDA
We can calculate the effective magnetic field
![Page 156: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/156.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVITY AND LAMBDA
![Page 157: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/157.jpg)
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVITY AND LAMBDA
We can now find the relationship between the commutative and noncommutative cosmological constants
![Page 158: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/158.jpg)
eff = eff +32
8
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVITY AND LAMBDA
We can now find the relationship between the commutative and noncommutative cosmological constants
![Page 159: UNIVERSIDAD DE GUANAJUATO DEPARTAMENTO DE FISICAhidalgo/segundo_taller_es_files/sabido.pdf · UNIVERSIDAD DE GUANAJUATO M. Sabido Efectos del Minisuperespacio Deformado en Cosmología](https://reader033.fdocuments.net/reader033/viewer/2022060410/5f1065e37e708231d448e9d2/html5/thumbnails/159.jpg)
eff = eff +32
8
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVITY AND LAMBDA
We can now find the relationship between the commutative and noncommutative cosmological constants
So even if in the original theory Λ=0, we find that the noncommutative universe has an effective Λ
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eff = eff +32
8
eff =32
8
Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVITY AND LAMBDA
We can now find the relationship between the commutative and noncommutative cosmological constants
So even if in the original theory Λ=0, we find that the noncommutative universe has an effective Λ
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Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
NONCOMMUTATIVITY AND LAMBDA
3
analogous to Eq.(4) but constructed with the variablesthat obey the modified algebra Eq.(10)
H = N
1
2P 2x
+!2
2x2
N
1
2P 2y
+!2
2y2. (11)
After using the change of variables Eq.(9) and makingthe following definitions
!21 =
!2
1 !22/4, !2
2 =!2 2/4
1 !22/4, (12)
we get
H =1
2
P 2x
P 2y
!2
1(xPy
+ yPx
) + !22(x
2 y2).
(13)Written in terms of the original variables the Hamilto-nian explicitly has the e↵ects of the phase space defor-mation. These e↵ects are encoded by the parameters and . In [29], the late time behaviour of this modelwas studied. From this formulation two di↵erent physi-cal theories arise, one that considers the variables x andy and a di↵erent theory based on x and y. The firsttheory, is interpreted as a “commutative” theory with amodified interaction, this theory is referred as being re-alised in the “C-frame” [27]. The second theory whichprivileges the variables x and y, is a theory with “non-commutative” variables but with the standard interac-tion and is referred to as realised in the “NC-frame”.One usually privileges one of the frames or assumes thatthe di↵erences between them are negligible, but in somecases there can be dramatic di↵erences in the physicson each frame. Although the physical implications be-tween the frames can be startlingly di↵erent [27], thereare cases when the predictions are very similar. In thoseinstances, one can take advantage of the formulation inthe “C-frame” and have very clear interpretation of thedeformation.
In the “C-frame” our deformed model has a very niceinterpretation, that of a ghost oscillator in the presence ofconstant magnetic field and allows us to write the e↵ectsof the noncommutative deformation as minimal couplingon the Hamiltonian and write the Hamiltonian in termsof the magnetic B-field.
To obtain the dynamics for our model, we derive theequations of motion from the Hamiltonian Eq.(13)
x = = Px
1
2!21y, y = P
y
1
2!21x,
Px
=1
2!21Py
!22x, P
y
=1
2!21Px
+ !22y, (14)
and solve them to get
x+ !21 y +
!22 +
1
4!41
x = 0, (15)
y + !21 x+
!22 +
1
4!41
y = 0. (16)
C-Framede-SitterNC-FrameNC-Frame
-2 2 4 6t
5
10
15
20
a3HtL
FIG. 1. Dynamics of the deformed phase space model. In allthe plots of the deformed model, 2 = 1 = 0. The thin lineand dashed lines are for 0 = 0 = 1, = 1,! = 0 and = 5;the dotted line is for 0 = 5/8, 0 = 4, = 4
p6/5,! = 1, =
1/p5. Finally the thick line corresponds to the volume of the
de Sitter space time. We can see that for large values of t thebehaviour is exponential.
Defining new variables and as = x+y, = yx, wecan decouple and solve equations Eqs.(16). The solutionsfor the variables x(t) and y(t) in the “C-frame” are
x(t) = 0 e!2
12 t cosh (!0t+ 1) 0 e
!212 t cosh (!0t+ 2) ,
y(t) = 0 e!2
12 t cosh (!0t+ 1) + 0 e
!212 t cosh (!0t+ 2) ,
(17)
where !0 =q
24!2
4!
2
2 . To compute the volume of the
universe in the “C-frame” we use Eq.(17) and Eq.(3)
a3(t) = V0 cosh2 (!0t) , (18)
where we have taken 1 = 2 = 0.There is a di↵erent solution for = 2!, for this case
the solutions in the “C-frame” are
x(t) = (a+ bt)e!2
12 t + (c+ dt)e
!212 t, (19)
y(t) = (a+ bt)e!2
12 t (c+ dt)e
!212 t.
and the volume of the universe is given by
a3(t) = V0 +At+Bt2, (20)
where V0, A and B are constructed from the integrationconstants. There is another solution for !
02 < 0, thehyperbolic functions are replaced by harmonic functions.To find the solutions in the “NC-frame” we start fromthe “C-frame” solutions and use Eq.(9),we get for the
0
2
4
b
02
4
q
-10
-5
0
L
III
III
IV
.0
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Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
FINAL REMARKS
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Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
FINAL REMARKS
- Using the ideas of noncommutative quantum mechanics and effective noncommutative in the minisuperspace is used for noncommutative quantum cosmology.
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Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
FINAL REMARKS
- A consistent formulation of non commutative classical mechanics has been constructed.
- Using the ideas of noncommutative quantum mechanics and effective noncommutative in the minisuperspace is used for noncommutative quantum cosmology.
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Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
FINAL REMARKS
- A consistent formulation of non commutative classical mechanics has been constructed.
- Using the ideas of noncommutative quantum mechanics and effective noncommutative in the minisuperspace is used for noncommutative quantum cosmology.
- The late time influence of phase space deformations in cosmological evolution have been stablished.*
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Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
FINAL REMARKS
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Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
- There is a posibility that Λ is related to the noncommutative parameter. This was found in a simple cosmological model.
FINAL REMARKS
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Seminario del Departamento de Física de la DCeI
August 6, 2014
Cuernavaca.
- A simple 5 dimensional model was proposed, where the origin of Λ is related to the noncommutativity between the compact dimension and the radius of the non compact dimension.
- There is a posibility that Λ is related to the noncommutative parameter. This was found in a simple cosmological model.
FINAL REMARKS