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Hall effect, Jack polynomials,
CFT….(More to come
in the talk by D. Serban)
Benoit Estienne, Raoul Santachiara, Didina Serban, Vincent Pasquier
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Most striking occurrence of a
quantum macroscopic effect in the
real word• In presence of of a magnetic field, the
conductivity is quantized to be a simple
fraction up to
• Important experimental fractions for
electrons are:
• Theorists believe for bosons:
• Fraction called filling factor.
1010
−
12 +p
p
1+p
p
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Hall effect
• Lowest Landau Level
wave functions
2
!)( l
zzn
n en
zz
−=ψ
nlr =
n=1,2, …, 22 l
A
π
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022
nl
A=
πNumber of available cells also
the maximal degree in each variable
∆=
=
λλλ
λλλ
SzzAS
mzzS
n
n
n
n
)...(
)...(
1
1
1
1 Is a basis of states for the system
Labeled by partitions
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particles in the orbital k are
the occupation numbers
equivalently,the number of
times the row of length k
occurs in the partition.
..........
.........
11
1
00
1
210
1000 NNNN
k
zzzz
NNNN
++
Can be represented by a partition with N_0 particles in orbital 0,
N_1 particles in orbital 1…N_k particles in orbital k…..
There exists a partial order on partitions, the squeezing order
kN
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Interactions translate into repulsion
between particles.
( )m
ji zz −
m universal measures the strength of the interactions.
Competition between interactions which spread electrons apart and high
compression which minimizes the degree n. Ground state is the minimal degreesymmetric polynomial compatible with the repulsive interaction.
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Laughlin wave function
occupation numbers:
00010010010
7
Keeping only the dominant weight of the expansion
1 particle at most into m orbitals (m=3 here).
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Important quantum number
with a topological interpretation
• Filling factor equal to number of particles
per unit cell:
•
=ν Number of variables
Degree of polynomial
3
1In the preceding case.
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Excitation
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( )∏∏<
−−ji
m
ji
i
i zzzx )(
Imagine you put the excitation at x=0
000001001001
It is pushing the motive to the right, inserting a 1/3 charge
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Edge Physics
• We shall make a not very well establishedassumption that electrons at the edge of the sample are relevant.
• Edge state physics described by a 1+1dimentional model.
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Non commutativity.
• The dynamical degrees of freedom (r,p) are reorganized into two commuting sets,the dynamical momenta and guidingcenters which obey heisenberg algebra:
where l is the magnetic length, p takes N^2 values.
11
qp
qlip
qp e +×= ρρρ
2
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algebra realized on edge
states as:
12
∞+1W
qpqp
qlipqlip
qp
cee ++×−× +−
=
δρ
ρρ
)(
],[
22
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∑∑
∑
≠=
=
∂−
++∂=
∂=
ji
zi
ji
jin
i
zi
g
n
i
zi
ii
i
zzz
zzgzH
zL
2
1
1
0
)(
Jack polynomials are eigenstates of the Calogero-Sutherland Hamiltonian on a circle with 1/r^2
potential interaction.
Jack Polynomials:
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Remarks
• By conjugating with a Vandermonde determinant,
• integer Hall effect
• H can be made Hermitian:
• In particular H is noninteracting if g=0,1
• Deformation of Schur functions. 14
g
j
ji
i zz )( −=∆ ∏<
∑∑< −
−+∂−=
ji ji
ggH
i 2
2
)sin(
)1(
4
1
θθθ
mg =
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Eigenstates
• C.S Hamiltonian is triangular in the monomial basis. Spectrum:
15
))21((
'
1
0
igE
NgLHH
i
N
i
i
g −+=
−=
∑=
λλλ
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0/1
' =+ gggEE λλ
)()'()(
2/)1'(')1()(
λλλ
λλλλ
gbbE
ib iii
−=
−=−= ∑∑Duality
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Jack polynomials at
1
1
+
−−=
k
rg
Feigin-Jimbo-Miwa-Mukhin
Generate ideal of polynomials“vanishing as the r power
of the Distance between particles ( difference
Between coordinates) as k+1 particles come together.
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Exclusion statistics:
• No more than k particles into r consecutive
orbitals.
For example when
k=r=2, the possible ground states (most dense
packings) are given by:
20202020….
11111111…..
02020202…..
Filling factor is
rkii ≥− +λλ
k
r
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CFT
• Parafermionc minimal models :
• Models with symmetry (q=q+k) .
• r=2 (Fateev-Zamolodchikov 85). r=3,4 generealizations. 19
pqpq
k rkkWA
+
−
=×
++
ψψψ
),1(1
kZ
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Clustering properties
• Due to chiral ring properties:
• Is a polynomial vanishing with a degree r when k+1 variables are clustered. This indicates a possible connection between Jack polynomials and parafermionic CFT.
20
rk
j
ji
iN zzzzz/
12111)()()...()( −>< ∏
<
ψψψ
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Moore Read (k=r=2)
)(1
Pfaff j
ji
i
ji
zzzz
−
−∏
<
When 3 electrons are put together, the wave function vanishes as:2ε
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Annulations
.
When 3 electrons are put together, the wave function vanishes as:
2εx x
y
1 2
1
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Fractional excitations
23
)1
()(ji
izz
Pfzx−
−∏Can be split into 2 charge ½ excitations:
)))((
(ji
ji
zz
yxzyzxPf
−
↔+−−
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CFT analogous:
• Quasiparticles are represented by Ising field.
• Jastrow factor necessary to insure locality between electrons and quasiparticles.
• Quasiparicles obey braid statistics.
24
2/1
121)()()....()....()( jiN wzwwzz −>< ∏ψψσσ 2/1
121)()()....()....()( jiN wzwwzz −>< ∏ψψσσ
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Jack polynomials=CFT
correlators and more?
• q deformed case.
• Bosonic Hamiltonian from CS.
• Duality.
• Another derivation from nullvector.
• More Hamiltonians and representations, some related to AGT conjecture.(DidinaSerban talk)
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q deformed CS=Macdonald
• Very interesting deformation of the CS model Ruisjenaars Hamiltonian (also Macdonald):
• 2 parameters q,t >g in limt q=t=1.
• Also H’ obtained t,q<>1/t,1/q. 26
ii qzz
i ji ji
jiT
zz
ztzH →
≠
∑∏−
−=
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Hecke Algebra ( Lascoux
Schutzenberger)
21
1
21
122112 )),(),((zz
tztzzzzzT
−
−Ψ−Ψ=Ψ
−
1
21
−− tztz
T projects onto polynomials divisible by:
T obeys Braid group algebra relations
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With adiabatic time QHE=TQFT
One must consider the space P(x1,x2,x3|zi) of polynomials vanishing when zi-xj goes to 0.
Compute Feynman path integrals
x1 x2 x3
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Y3
1 23 4
0],[ =ji YY
Shift by q
Hecke generators
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Collective variables
• Jevicki Sakita (NPB 165,1980)
• Stanley (Adv. Math. 77, 1989)
• Consider the action of the Hamiltonian on a wave function depending on collective variables:
30∑=
Ψ
k
ik zp
pp ,...),(21
with
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Collective Hamiltonian:
• H=K+gV
31
nnl
nlk
k
mn
mn
mnnn
n
npNppg
mnppn
∂−++
∂∂+∂=
∑
∑∑
=+
+
))1((
,
2
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In terms of bosons:
32
nn
nn
nga
pga
∂=
=−
−
2/1
2/1
0
0
2/1
1
3/
)1(
NgLaaag
aagH
lmn
lmn
n
n
n
+
+−=
∑
∑
=++
>−
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In terms of Virasoro
• H is hermitian but p depend on g, therefore,
• Macdonald approach Hilbert Schmidt.
• H= (Awata et al.)
33
mnmng
npp ,, δ>=<
n
n
n la∑>
−0
Virasoro Algebra constructed via FF construction
)1
(613g
gc +−=
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q-deformed case.
• Hamiltonians become zero mode of vertex operator analogous to e,f generators of SL2(q). Ding Iohara (Shiraishi et al.)
• Can be thougt as (central extension of) algebra generated by: ,
• Analogous of Cartan generators K generated by:
• Also extention of :34
k
iy∑
∑ iz
∞+1W
k
iz∑
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SL2(Z) symmetry.
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Classical limit
• Jevicki (81). Abanov Bettelheim, Wiegmann (08).
• Set
• Then:
36
gvzan
n
n /)1(
0
==∂ +−
>
∑ϕ
dxvhvvH x )(.2
1
3
1 3 += ∫
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Duality again:
• Recall the way quasiparticles are constructed in the Hall effect:
• So, we can consider the Kernel:
37
( )∏∏<
−−ji
m
ji
i
i zzzx )(
)(,
∏ −ia
ja zx
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Kernel as intertwiner
• This Kernel intertwines electrons and quasiholes with fractional charge 1/g (Laughlin argument and g an integer),
• It is not difficult to show (Macdonald,Gaudin):
38
0/1
=+ g
z
g
x HH
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Correlators?
• Derive this Hamiltonian by using Correlation functions in CFT. (Cardy…) Consider degenerate fields (g=-1/3 Moore Read) corresponds to :
• Obeying level 2 degeneracy equation:
39
ϕ2/1)2/(g
g eV−=
)()()(2
xVxgTxV ggx =∂
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Another expression:
• Going back to the boson representation for the Virasoro generators (F.F.), we canalso rewrite the conserved quantities as a sum of two BO hamiltonians+ a coupling
(Generalizing a formula of Belavin,Belavin)
40
m
m
mccgcHcHI ')1()'()(0
333 ∑>
−+++ −++=
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Duality relation:
• The same can be repeated for the dual operators, absence of interations between the two type of fields implies similar separation as for the abelian case:
• Implying a factorization of the conformal blocs:
41
0/1
=+ g
z
g
x HH
)()(),( ' zPxPzxF λλ
λ∑=
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In the Ising case
• Correlator becomes factorized:
• Jastrow factor can be taken into accout by U(1) factor.
42
2/1
121 )()()....()....()( jiN wzwwzz −>< ∏ψψσσ
ϕ2/1)2/(g
g eV−= ϕ2/1
)2/1(
/1
g
g eV−=
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Organization of states.
• Didina Serban will show that the Hamiltonian is the sum of 2 independantC.S. Hamiltonians up to a lower triangularinteraction term. So the spectrum ischaracterized by 2 sets of quantum numbers. Agrees with the exclusion statistics selection rules.
43
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Conclusions extensions
• Can be generalized to W-n theories in particular to parafermionic theories relevant for the Hall effect (Haldane Rezayi serie).
• CS Hamiltonian seems to provide a « good » bases to classify the descendants inside a Virasoro module.
• A lot more need to be understood, non polynomial solutions of C.S. (Didina’s talk) , relevance for the QHE etc…