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Theories with large extra dimensions and theirexperimental consequences
Edward Boos, Vyacheslav Bunichev, Maxim Perfilov,
Mikhail Smolyakov, Igor Volobuev (SINP MSU)
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Introduction
Hundred years ago the first physical theory was put forward, in which an attempt was made to use five-dimensional space-time for a unification of electromagnetism and relativistic scalar gravity:
Gunnar Nordström, ''Über die Möglichkeit, das elektromagnetische Feld und das Gravitationsfeld zu vereinigen''‚ (On the possibility of unifying the electromagnetic and the gravitational fields) (1914 г.)
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Later this idea was developed by T. Kaluza and O. Klein:
Kaluza T. ''Zum Unitätsproblem in der Physik''‚
(On the problem of unity in physics)
Sitzungsber. Preuss. Akad. Wiss.
Berlin. (Math. Phys.). 1921. P. 966-972;
Klein O. ''Quantentheorie und fünfdimensionale
Relativitätstheorie'', (Quantum theory
and five-dimensional theory of relativity)
Zeit. Physik. 1926. V. 37. P. 895-906.
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The space-time has an extra space dimension, which is macroscopically unobservable.
The unobservability of the extra dimension was explained by its compactness and extremely small size, - of the order of the Planck length LPl = 1/MPl
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The original Kaluza-Klein model: gravity in five-dimensional space-time E=M4 x S1 with action
being the five dimensional gravitational constant, being the five-dimensional scalar curvature and the signature of the metric being
sign gMN = (-,+,+,+, +), M,N = 0,1,2,3,4.
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The five-dimensional metric gMN can be decomposed as
If gMN does not depend on the extra dimension coordinate y, then
R(4) being the scalar curvature of the four-dimensional space-time M4 with metric Ɣμν.
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In the papers by Kaluza and Klein the field φ was assumed to be constant, and the field Aμ was identified with the electromagnetic field.
The theory gives a relation between the five-dimensional (M) and the four-dimensional (MPl) Planck masses:
Any field in space-time E=M4 x S1 can be expanded in a Fourier series in the coordinate y.
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Thus, for a scalar field
The Lagrangian in five-dimensional space-time is
and the equations of motion look like
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The modes φ(n) satisfy the equations
Since L is of the order of the Planck length, the observable fields may be only the “zero modes”, i.e. they do not depend on the coordinate of the extra dimension.
For every four-dimensional field there exists a tower of fields with the same quantum numbers and the masses of the order of MPl, which cannot be observed at the energies available nowadays.
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1 Large extra dimensions
Localization of fields:
V.A.Rubakov and M.E. Shaposhnikov,
“Do We Live Inside A Domain Wall?”
Phys. Lett. 125 (1983) 136.
“Extra Space-Time Dimensions: Towards A
Solution Of The Cosmological Constant Problem”,
Phys. Lett. 125 (1983) 139.
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The fields of the SM can be localized on a domain wall in a multidimensional space. If the thickness of the domain wall goes to zero, then it turns into a membrane, or just a “brane”.
ADD scenario
N. Arkani-Hamed, S.Dimopoulos and G.R. Dvali,
“The hierarchy problem and new dimensions at a
millimeter”, Phys. Lett. B 429 (1998) 263
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A single brane without tension (i.e. energy density) in a space-time with an arbitrary number of compact extra dimensions.
The scenario provides a solution to the hierarchy problem: it gives a strong gravity in the multidimensional space-time and a weak gravity on the brane
The approximation of the zero brane tension turns out to be rather too rough, and the proper gravitational field of the brane cannot be taken into account perturbatively.
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For the equations of Einstein gravity in space–time with compact extra dimensions to be consistent, there should exist at least two branes with tension, and the number of extra dimensions can be either one or two.
L. Randall and R. Sundrum,
“A large mass hierarchy from
a small extra dimension”,
Phys. Rev. Lett. 83 (1999) 3370
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Sean M. Carroll, Monica M. Guica,
“Sidestepping the cosmological constant
with football shaped extra dimensions . e-Print: hep-th/0302067
In Einstein gravity it is impossible to find braneworld solutions with more than two extra dimensions.
A possible way out is to pass to Lovelock gravity
D. Lovelock,
"The Einstein tensor and its generalizations", J. Math. Phys. 12 (1971) 498 - 501.
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2 The Randall-Sundrum model
Two branes with tension at the fixed points of the orbifold S1/Z2:
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The solution for the background metric:
The parameters k, Λ и λ1,2 satisfy the fine tuning conditions:
The linearized gravity is obtained by the substitution
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The field hMN can be transformed to the gauge
The field φ(x) is called the radion field.
The distance between the branes along the geodesic
x = const
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The metric in the zero mode approximation looks like
Substituting this metric into the action and integrating over the coordinate of the extra dimension one gets an effective action
Galilean coordinates: gμν = diag(-1,1,1,1).
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Coordinates {x} are Galilean for c=0,
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Coordinates {x} are Galilean for c = - kL,
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The hiearrchy problem is solved, if M ~ k ~ 1 TeV и kL~
35. There appears a tower of tensor fields on the brane with
the lowest mass of the order of M and the coupling to the SM fields of the order of 1/M.
The coupling of the radion to matter on the brane is too
strong and contradicts the experimental restrictions even at the level of classical gravity.
The Randall-Sundrum model must be stabilized!
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3 Stabilized Randall-Sundrum model
Stabilization mechanisms:
W. D. Goldberger and M.B. Wise, “Modulus stabilization with bulk fields”, Phys. Rev. Lett. 83 (1999) 4922
O. DeWolfe, D.Z. Freedman, S.S. Gubser and A. Karch, “Modeling the fifth dimension with scalars and gravity”, Phys. Rev. D 62 (2000) 046008
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The second model is more consistent. We consider such values of the model parameters that the background metric of the stabilized model is close to that of the unstabilized model.
The physical degrees of freedom of the model in the linear approximation were isolated in the paper
E.E. Boos, Y.S. Mikhailov, M.N. Smolyakov and I.P. Volobuev, “Physical degrees of freedom in stabilized brane world models”, Mod. Phys. Lett. A 21 (2006) 1431
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They are: tensor fields bμν
n(x), n=0,1, … with masses mn (m_0 = 0) and wave functions in the space of extra
dimension ψn(y), scalar fields φn(x), n=1,2, … with masses μn and wave
functions in the space of extra dimension gn(y).
In the Standard Model extension based on the stabilized Randall-Sundrum model there appear new interactions of the SM fields described by the Lagrangian
Tμν being the energy-momentum tensor of the SM.24
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4 Tensor sector: interactions due to Kaluza-Klein gravitons
At low energies these interactions lead to contact interactions of SM fields
m1 and Λπ being the mass and the coupling constant of the first tensor mode and the constant δ describing the contribution of the scalar modes.
For M ≈ 2 TeV, k ≈ 1 TeV, k L = 35 and the mass of the first scalar mode of the order of 2 TeV these parameters turn out to be
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In the first approximation the effective interaction Lagrangian includes a sum of various 4-particle
effective operators (not only 4-fermion, but also 2-fermion-2-boson and 4-boson), which are invariant with
respect to the SM gauge group and lead to a well defined phenomenology.
Various processes due to this Lagrangian were studies with the help of the CompHEP package in the paper
E.E. Boos, V.E. Bunichev, M.N. Smolyakov and I.P. Volobuev, “Testing extra dimensions below the production threshold of Kaluza-Klein excitations” Phys.Rev.D79:104013,2009 arXiv:0710.3100v4 [hep-ph].
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The restrictions on the coupling constant for which the extra dimension cannot be observed at the LHC:
The lowest value of the parameter Λπ , for which the extra dimension does not manifest itself, can be found from the demand that the resonance width is lesser than its mass, i.e. Γ1 = m1/ξ , where ξ >1:
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In a similar way one can consider the situation, where the mass of the first mode lies in the accessible energy range. In this case the contribution of the first mode can be taken into account explicitly and the contribution of all the other modes, starting from the second one, can be again described by the effective contact interaction.
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5 Scalar sector: radion interactions and Higgs-radion mixing
The radion field is a combination of the metric fluctuations in the extra dimension and of the fluctuations of the stabilizing scalar field. Due to its origin, it couples to the trace of the energy-momentum tensor of the Standard Model:
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In the paper
E. Boos, S. Keizerov, E. Rahmetov and K. Svirina,
“Higgs boson-radion similarity in production
processes involving off-shell fermions” Phys. Rev. D 90 (2014) 9, 095026
it was shown that this interaction Lagrangian leads to the same production and decay properties of a single radion as those of the Higgs boson.
The radion and the Higgs boson having the same quantum numbers, the radion field and its excitations can mix with the Higgs field, if they are coupled.
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Higgs-radion coupling in the unstabilized Randall-Sundrum model arising due to a Higgs-curvature term on the brane was introduced in the paper
G. F. Giudice, R. Rattazzi and J. D.Wells
Graviscalars from higher dimensional metrics
and curvature Higgs mixing
Nucl. Phys. B 595 (2001) 250
It looks like , H(x) denoting the Higgs field.
In the linearized theory
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The Higgs-curvature term gives rise to the interaction term
,,,,
which leads to a Higgs-radion mixing, and to a term with the Fierz-Pauli Lagrangian
that affects the boundary conditions for the tensor fields.
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In stabilized brane world models, instead of the Higgs-curvature term, one can introduce an interaction between the stabilizing scalar field and the Higgs field of the form
that replaces the Higgs potential and leads to spontaneous symmetry breaking on our brane.
This term gives rise to an interaction of the physical Higgs boson field σ(x) with the radion field φ1(x) and its Kaluza-Klein tower.
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At low energies the heavy Kaluza-Klein scalar modes can be integrated out, the interaction between the Higgs field σ(x) and the radion field φ1(x) can be diagonalized by a rotation
,
which gives an effective Lagrangian for the interaction of the Higgs-dominated field h(x) and the radion-dominated field r(x) with the fields of the Standard Model.
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he
The parameter c takes into account the contributions of the integrated out heavy scalar modes and the conformal anomaly is explicitly given by
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We have studied two a priori possible scenarios that the scalar state discovered at 125 GeV is either a Higgs-dominated state or a radion-dominated state. In our analysis we used only two signal strengths corresponding to the channels gg → ɣɣ and gg → ZZ*.
E. Boos, V. Bunichev, M. Perfilov,
M. Smolyakov and I. Volobuev,
“Higgs-radion mixing in
stabilized brane world models,” arXiv:1505.05892 [hep-ph].
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Exclusion contours for the combined χ2 fit in
the (mr , sinθ ) plane for Λr = 3 TeV
e
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Exclusion contours for the combined χ2 fit in
the (mr , sinθ ) plane Λr = 5 TeV43
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Exclusion contours for the combined χ2 fit in
the (mh , sinθ ) plane Λr = 3 TeV
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Exclusion contours for the combined χ2 fit in
the (mh , sinθ ) plane Λr = 5 TeV
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6 Universal Extra Dimensions and processes with the excitations of the SM gauge bosons
If the SM gauge bosons can propagate in the bulk, there also arise KK towers of their excitations, which may produce similar effects.
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Single top production
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Drell-Yan processes
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','Zuu
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Here we have also to take into account the processes with the Kaluza-Klein gravitons
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7 Conclusion
The Standard Model extension based on the stabilized Randall-Sundrum model is phenomenologically acceptable. If the values of the fundamental parameters lie in the TeV energy range, then the effects due to the massive modes can be observed in collider experiments, in particular, in the Higgs boson decay.
The LHC data give an estimate for the parameter Λπ:
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In the case, where the centre of mass energy is above the production threshold of the first mode, the effective contact interaction induced by the infinite towers of gravitons or KK excitations of the SM particles should also be taken into account, because they lead to nontrivial interference effects.
An observation of the interference between the first KK graviton or SM particle resonance and the rest of its KK tower should be considered as a strong argument in favour of the extra dimensions hypothesis.
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Thank you!
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