Quantum Shock Waves and Emergence of Quantized Edge ...Quantum Non-linear Equations can be treated...
Transcript of Quantum Shock Waves and Emergence of Quantized Edge ...Quantum Non-linear Equations can be treated...
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Quantum Shock Waves andEmergence of Quantized Edge States
Together with Alexander Abanov and Eldad Bettelheim
1
P. Wiegmann
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FQHE - topological quantum liquid: a gapped state on a closed manifold with a monodromy.
The ground state is degenerate on a multiply-connected closed maniold
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Probing is possible only through a boundary
Point like, or extended
Extended boundary - an Edge
Topological liquid is not gapped any longer -
Edge states propagate as a sound - subject to decoherence
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Edge state carries the information of the topology:
Edge tunneling, noise measurements.
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Topological aspects: fractional charge and braiding can be measured in edge states out-of- equlibrium
Quantum Shock Wave
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A smooth bump in density propagating:
all gradients << Fermi scale
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(i) transport on the edge is essentially non-linear,
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Disipativeless shock waves
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Each Soliton carries a FRACTIONAL CHARGE
Soliton Train
time
space
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How to describe quantum dynamics of Edge State?
Step 1: Conjecture: Edge state (Abelian state) is effectively described by Calogero model
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V (x) = !(x) !1
x2,
1
sinh2 x,
Interpolates between Lattinger liquid and Calogero model - quantum wires, edge states of FQHE
Model Hamiltonian: Calogero model
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Shock wave: Riemann-Hopf Equation
!̇ + ("x!)2 = 0
Classical Riemann equations are ill-defined (no single valued solutions)
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Stabilization of shock waves by:
(i) by quantum corrections;
(ii) by interaction
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V (x) = !(x) !1
x2,
1
sinh2 x,
!̇ =1
2("x!)2 + "2
x!̃
!̃ =1
"L
!cot
x ! x!
L!(x!)dx!
Interaction -- stabilizes shock wave through dispersion
!(x + iL) = !(x)
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!̇ =1
2("x!)2 + "2
x!̃
!̃ =1
"L
!cot
x ! x!
L!(x!)dx!
L ! 0 : !̇ =1
2("x!)2 + "3
x!
ILW-equation
KdV-equation
L ! " : !̇ =1
2("x!)2 + "2
x
!!(x!)
x # x!dx!
Benjamin-Ono equation
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(i) Lattinger Liquid - short range interaction:
!̇ + ("x!)2 + #"3
x! = 0 KdV-equation
(ii)Fractional Hall Edge State - long range interaction (Calogero model)
!̇ + ("x!)2 + #"2
x!H = 0 Benjamin-Ono equation
!H(x) =
!!(z)
x ! z
dz
2"i
—
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(i) KdV-equation: Non-linear waves in shallow water
!̇ + ("x!)2 + #"3
x! = 0
(ii) Benjamin-Ono equation: Non-linear waves in deep water
!̇ + ("x!)2 + #"2
x!H = 0
!H(x) =
!!(z)
x ! z
dz
2"i
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!̇ + ("x!)2 + #"2
x!H = 0
Benjamin-Ono equation
!H(x) =
!!(z)
x ! z
dz
2"i
Universal description of non-linear chiral boson at FQHE edge
|B>
GaAs
Edge State
! ! is a fraction
It is a unique equation which solitons have a fixed charge
!
!
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On the relation between Calogero model and CFT
!̇ = !xT!
!"
T = (!x")2 + #0!2
x"
!0 =!
" " 1/!
"
!(! ! 1)
(xi ! xj)2
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Period of oscillations is
(interaction) ! (!")!1 >> k!1
F
Quantum Non-linear Equations can be treated semiclassically
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Conclusions:
Transport is 1D-electronic systems is essentially non-linear,
Any smooth semiclassical excitation evolving in timeis unstable, and eventually sharp,
will be fragmented to individual soliton-like particles,
Fermi-surface is an essentially semiclassical, it is destroyed in evolution.
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Morning Glory
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Chain of rolling cloudsMorning glory
South Australia Believed to be Benjamin-Ono eq
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