8.513 Lecture 14 Coherent backscattering Weak …levitov/8513/lec14.pdfagainst the spirit of band...
Transcript of 8.513 Lecture 14 Coherent backscattering Weak …levitov/8513/lec14.pdfagainst the spirit of band...
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8.513 Lecture 14
Coherent backscatteringWeak localization
Aharonov-Bohm effect
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Light diffusion; Speckle patterns;
phase-averagedSpeckles in coherent backscattering
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Coherent backscattering
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Contribution of multiple scattering processes
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Weak localization
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One out of many experimental studies of weak localization
Two-dimensional quasi 1D normal metal strips of width WLicini, Dolan, Bishop (1985)
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Aharonov-Bohm effect in conductors
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AB-effect with a double-flux quantum period 0=2hc/e
10 Oe = 1 mT
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Mesoscopic AB-effect with a single-quantum period 0=hc/e
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Magnetoresistance in a larger field range: coexistence of AB effect and
mesoscopic fluctuations
● Mesoscopic sample-specific fluctuations sampled by conductance dependence on some parameter (e.g. gate voltage, E or B fields)
● Typical conductance variation e^2/h
● The period of AB effect is single-flux quantum (lack of avreraging)
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Averaging over many rings
Umbach et al. PRL 56, 386 (1986)
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Univerasal conductance fluctuations
Boris Altshuler, Patrick Lee, Doug Stonesimulatneously (1985)
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Antilocalization in the presence of spin-orbital scattering
● Sign reversal of weak localization (Hikami, Larkin, Nagaoka, Prog. Theor. Phys. 63, 707 (1980))
● Pancharatnam-Berry phase argument, generalized for random scattering (Meir, Gefen, Entin-Wohlmann, PRL 63, 798 (1989))
● Measured directly via AB oscillation period splititng (Morpurgo et al. PRL80, 1050 (1998))
Anandan, Christian and Wanelik "Geometric phases in physics". Am. J. Phys. 65: 180 (1997).
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Berry phase in SO scattering
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?
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Anderson localization
A non-interacting electron in a random potential may be localized.
Anderson (1957)
Gang of four (1979): scaling theory
Weak localization P.A. Lee, H. Fukuyama, A. Larkin, S. Hikami, ….
well-understood area in condensed-matter physics
Unsolved problems:
Theoretical description of critical points
Scaling theory for critical phenomena in disordered systems
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A non-interacting electron moving in random potential
Quantum interference of scattering waves
Anderson localization of electrons
E
extended
localizedlocalized
extended
localized
critical
Ec
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Scaling theory (gang of four, 1979)
Metal:
Insulator:
A metal-insulator transition at g=gc is continuous (d>2).
Conductance changes when system size is changed.
All wave functions are localized below two dimensions!
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anti-localization
critical point in 2D
symplectic class: ○ time-reversal, × spin-rotation spin-orbit interaction
Metal-insulator transition in 2D
3 symmetry classes (orthogonal, unitary, symplectic)
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?
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But my recollection is that, on the whole, the But my recollection is that, on the whole, the attitude was one of humoring me.attitude was one of humoring me.
Tight binding model
Vij nearest neighbors, εI random potential
What if I place a particle in a random potential and wait?
Technique: Looking for inestabilities in a locator expansion
Interactions?
Disbelief?, against the spirit of band theory
Correctly predicts a metal-insulator transition in 3d and localization in 1d
Not rigorous! Small denominators
4202 citations!
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No control on the approximation.No control on the approximation.
It should be a good approx for d>>2. It should be a good approx for d>>2.
It predicts correctly localization in 1d It predicts correctly localization in 1d and a transition in 3dand a transition in 3d
= 0metal
insulator
> 0
metal
insulator
∼ η
The distribution of the self energy SThe distribution of the self energy Sii (E) (E) is sensitive to localization.is sensitive to localization.
)(Im ηiESi +=Γ
Perturbation theory around the Perturbation theory around the insulator limit (locator expansion). insulator limit (locator expansion).
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Energy ScalesEnergy Scales
1. Mean level spacing:1. Mean level spacing:2. Thouless energy: 2. Thouless energy: ttTT(L) (L) is the travel time to cross a box of size L is the travel time to cross a box of size L
υδ 1=
δTEg ≡
Dimensionless Dimensionless Thouless Thouless
conductanceconductance22 −−− ∝∝= dd
T LgLLDE δDiffusive motion Diffusive motion without localization correctionswithout localization corrections
1
1
<<<<>>>>
gE
gE
T
T
δδ
TT thE /=
MetalMetal
InsulatorInsulator
Scaling theory of localizationScaling theory of localization Phys. Rev. Lett. 42, 673 (1979), Gang of four. Based on Thouless,Wegner, scaling ideas
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Scaling theory of Scaling theory of localizationlocalization
)(ln
logg
Ld
gd β=0log)(1
/)2()(1/
2
<≈∝<<−−=∝>>
−
−
ggegg
gdgLggL
d
βπβ
ζ
The change in the conductance with the system size only depends on the conductance itself
)(gβ
gWeak localizationWeak localization
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Predictions of the scaling Predictions of the scaling theory at the transitiontheory at the transition
dttr /22 )( ∝
dd LLDqqD −− ∝∝ 22 )()(
1. Diffusion becomes anomalous1. Diffusion becomes anomalous
2. Diffusion coefficient become size and 2. Diffusion coefficient become size and momentum dependentmomentum dependent
3. g=g3. g=gcc is scale invariant therefore level statistics are is scale invariant therefore level statistics are scale invariant as wellscale invariant as well
Imry, Slevin
Chalker
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1.Cooperons (Langer-Neal, maximally crossed, responsible for weak localization) and Diffusons (no localization, semiclassical) can be combined.
3. Accurate in d ~2.
Weak localization
Self consistent condition (Wolfle-Volhardt)
No control on the approximation!
Positive correction to the resistivity of a metal at low T
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Predictions of the self consistent theory Predictions of the self consistent theory at the transitionat the transition
νξ ξψ −− −∝ |||)(| /c
r EEer 42/1
421
>=<= −
d
dd
νν
1. Critical exponents:1. Critical exponents:
2. Transition for d>2
Vollhardt, Wolfle,1982
3. Correct for d ~ 2
Disagreement with numerical simulations!!
Why?
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1. Always perturbative around the metallic (Vollhardt 1. Always perturbative around the metallic (Vollhardt & Wolfle) or the insulator state (Anderson, Abou & Wolfle) or the insulator state (Anderson, Abou Chacra, Thouless) .Chacra, Thouless) .
A new basis for localization is neededA new basis for localization is needed
2
2
)(
)(−
−
∝∝
d
d
qqD
LLD
Why do self consistent Why do self consistent methods fail for d = 3?methods fail for d = 3?
2. Anomalous diffusion at the transition 2. Anomalous diffusion at the transition (predicted by the scaling theory) is not taken (predicted by the scaling theory) is not taken into account.into account.
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