Physics 452 Quantum mechanics II Winter 2011 Karine Chesnel.
Physics 451 Quantum mechanics I Fall 2012 Sep 12, 2012 Karine Chesnel.
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Transcript of Physics 451 Quantum mechanics I Fall 2012 Sep 12, 2012 Karine Chesnel.
![Page 1: Physics 451 Quantum mechanics I Fall 2012 Sep 12, 2012 Karine Chesnel.](https://reader035.fdocuments.net/reader035/viewer/2022062409/56649f3e5503460f94c5f6b5/html5/thumbnails/1.jpg)
Physics 451
Quantum mechanics I
Fall 2012
Sep 12, 2012
Karine Chesnel
![Page 2: Physics 451 Quantum mechanics I Fall 2012 Sep 12, 2012 Karine Chesnel.](https://reader035.fdocuments.net/reader035/viewer/2022062409/56649f3e5503460f94c5f6b5/html5/thumbnails/2.jpg)
Homework remaining this week:
• Extended Friday Sep 14 by 7pm: HW # 5 Pb 2.4, 2.5, 2.7, 2.8
Announcements
Quantum mechanics
Note:Penalty on late homework: - 2pts per day
Credit for group presentations:Homework 2: 20 points
Quiz 5: 5 points
![Page 3: Physics 451 Quantum mechanics I Fall 2012 Sep 12, 2012 Karine Chesnel.](https://reader035.fdocuments.net/reader035/viewer/2022062409/56649f3e5503460f94c5f6b5/html5/thumbnails/3.jpg)
No student assigned to the following transmitters:
Announcements
Quantum mechanics
Please register your i-clicker at the class website!
2214B6817A790201E5C6E2C1E71A9C6
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Quantum mechanics Ch 2.1
Time-independentSchrödinger equation
Solution (x) depends on the potential function V(x).
• Space dependent part:
/( , ) ( ) iEtx t x e Stationary stateAssociated to energy E
2 2
2( )
2
dV x E
m dx
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Quantum mechanics Ch 2.1
Stationary states
Properties:
• Expectation values are not changing in time (“stationary”):
/( , ) ( ) iEtx t x e * ( , )Q Q x dxi x
with
* ( , )Q Q x dxi x
Q is independent of time
0d x
p m v mdt
The expectation value for the momentum is always zero
In a stationary state!
p(Side note: does not mean that and x are zero!)
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Quantum mechanics Ch 2.1
Stationary states
Properties:
2 2
2( )
2
dV x E
m dx
• Hamiltonian operator - energy
^ ^* *H H dx E dx E
^ ^2 * 2 2 * 2H H dx E dx E
^
H
0H
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Quantum mechanics Ch 2.1
Stationary states
• General solution
1
( , ) ( , )n nn
x t c x t
/( , ) ( ) niE tn nx t x e
where
• Associated expectation value for energy2
1n n
n
H c E
![Page 8: Physics 451 Quantum mechanics I Fall 2012 Sep 12, 2012 Karine Chesnel.](https://reader035.fdocuments.net/reader035/viewer/2022062409/56649f3e5503460f94c5f6b5/html5/thumbnails/8.jpg)
Quiz 6a
n nn
c EA.
B.
C. one of the values
D.
Quantum mechanics
A particle, is in a combination of stationary states:
What will we get if we measure its energy?1
( , ) ( , )n nn
x t c x t
H
nE
nn
E
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Quiz 6b
2
nc
2
1
nc
A. 0
B.
C.
D.
E.
Quantum mechanics
A particle, is in a combination of stationary states:
What is the probability of measuring the energy En?1
( , ) ( , )n nn
x t c x t
nc
n
n
c
c
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Quantum mechanics Ch 2.2
Time-independent potential
Expectation value for the energy:
^
n n nH E
*^
1 1m m n n
m n
H c H c
^ ^* *
1 1m n m n
m n
H c c H dx
^ ( )*
1 1
n mt
i E E
m n n nmm n
H c c E e
^ 2
1n n
n
H c E
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Quantum mechanics Ch 2.2
Infinite square well
x0 a
The particle can only exist in this region
V(x)=0 for 0<x<a
V=∞ else
Shape of the wave function?
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Quantum mechanics Ch 2.2
Infinite square well
Solutions to Schrödinger equation:
Simple harmonic oscillator differential equation
2 2
22
dE
m dx
22
2
dk
dx
2mEk
with
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Quantum mechanics Ch 2.2
Infinite square well
Solutions to Schrödinger equation:
Boundary conditions:
( ) sin cosx A kx B kx
At x=0: (0) 0
At x=a: ( ) 0a
( ) sinx A kx with n
nk
a
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Quantum mechanics Ch 2.2
Infinite square well
Possible states and energy values:
2 2 2
22n
nE
ma
Quantization of the energy
Each state n is associated to an energy En
2sinn
nx
a a
^
n n nH E
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Quantum mechanics Ch 2.2
Infinite square well
Properties of the wave functions n:
x0 a
1.They are alternativelyeven and odd
around the center
2. Each successive statehas one more node
Ground state 1 1,E
Excited states
2 2,E
3 3,E
3. They are orthonormal
*m n nm
4. Each state evolves in time with the factor /niE te
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Quantum mechanics Ch 2.2
Infinite square well
Pb 2.4 Particle in one stationary state
Pb 2.5 Particle in a combination of two stationary states
1 2,0 ( )x A
x p evolution in time? 2, ( , )x t x t
oscillates in time H expressed in terms of E1 and E2
x 2x p 2p2x p
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Quantum mechanics Ch 2.2
Infinite square well
Expectation value for the energy: ^ 2
1n n
n
H c E
The probability that a measurement yields to the value En is 2
nc
Normalization 2
1
1nn
c