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Dualities in 2+1 quantum field theories and the link between composite
fermions and the exciton condensate
Institute for Theoretical Physics University of Leipzig
October 20, 2017
Inti Sodemann Max Planck Institute for the Physics of Complex Systems - Dresden
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Plan of talk
• The boson - boson vortex duality.
• The fermion - fermion vortex duality.
• The link between composite fermions and exciton condensate.
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HaldaneColeman Luttinger
1
2
(@�)2 + (m/�)2 cos(��) (i/@ �m) � g
2( �µ )
2
4⇡
�2= 1 +
g
⇡
��
x
2⇡
S. Coleman,
PRD 1975
† =�
2⇡@x
�
Sine�Gordon
1 + 1 Massive� Thirring1 + 1⌘
“UV” duality of 1D QFTs
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Superfluid to insulator transition of bosons
tU
U/tSuperfluid Insulator
U ⌧ t U � t
Key ingredients:• Local Hamiltonian of microscopic lattice bosonic operators.
• Microscopic U(1) symmetry of total particle number conservation.
• Integer filling of the lattice.
At critical point a relativistic field theory emerges.
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Field theory of superfluid-insulator transition
tU
U/tSuperfluid Insulator
h�i 6= 0 h�i = 0
V (�) boson creation operator
�
� = |�0|ei'
Phase fluctuations are gapless and describe sound
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Superfluid vorticesSuperfluid Insulatorh�i 6= 0 h�i = 0
V (�) boson creation operator
�
� = |�0|ei'
Vortex
j = ⇢sr'
j / 1
r
vortex is non-local: carries a power law current
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Boson-vortex duality in 2+1 DSuperfluid Insulatorh�i 6= 0 h�i = 0
boson creation operator
�
Superfluid Insulatorvortex creation operator
h i = 0 h i 6= 0
aµ aµ
Dasgupta, Halperin, PRL 47, 1556 (1981).
|(i@µ �Aµ)�|2 + r|�|2 + u|�|4
|(i@µ � aµ) |2 + s| |2 + v| |4 + 1
2⇡✏µ⌫�Aµ@⌫a�
Peskin, Ann, Phys. 113, 122 (1978).
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Boson-vortex duality dictionary �
vortex
|(i@µ �Aµ)�|2 + r|�|2 + u|�|4 boson
|(i@µ � aµ) |2 + s| |2 + v| |4 + 1
2⇡✏µ⌫�Aµ@⌫a�
�n(r) = �†� =r⇥ ~a
2⇡Incompressibility of insulator =
“Meissner effect”
Gauss law = non-local current around vortex
z ⇥~j(r) = ~e(r) = �ra0 + @t~a
2⇡
Faraday law = continuity equation j / 1
r
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Boson-vortex duality in 2+1 DSuperfluid Insulator
vortex creation operator
h i = 0 h i 6= 0
aµ aµ
�n(r) = �†� =r⇥ ~a
2⇡z ⇥~j(r) = ~e(r) = �ra0 + @t~a
2⇡
Photon = sound
Higgs mechanism = Absence of low energy excitations
in the insulator
Abrikosov vortex = boson
quantization of vorticity = boson number quantization
|(i@µ � aµ) |2 + s| |2 + v| |4 + 1
2⇡✏µ⌫�Aµ@⌫a�
�† $ M2⇡
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Polyakov confinement of U(1) gauge theorySuperfluidInsulator
h�i 6= 0
h�i = 0
t/U
t/U
Break explicitly U(1) boson conservation
h�i 6= 0
Insulator
Gapless sound = massless photon
“Pinned” phase = massive photon
Vortices have 1/r force
Linearly confined vortices
�† $ M2⇡
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Boson and vortex fractionalization“Trivial” superfluid“Trivial” Insulator
h�i 6= 0h�i = 0
“paired” superfluid“Trivial” Insulator
h�i = 0
h�i = 0
h��i 6= 0
�2 = |�0|2e2i'“half-vortices” allowed
�(2') = 2⇡
�(') = ⇡
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Boson and vortex fractionalization“trivial” superfluid “trivial” Insulator
“paired” insulator“trivial” superfluid
Abrikosov vortices will trap half flux quantum!
h i = 0 h i 6= 0
h i = 0 h i = 0
h i 6= 0
�n(r) = �†� =r⇥ ~a
2⇡�N =
Zd2r �n(r) = ±1
2
Excitations carry fractional charge!
Z2
spin liquid
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Fermion vortex duality Dirac fermion Le = e(i/@ � /A) e + Lint
Topological insulator
Dirac fermion vortex Lcf = cf (i/@ � /a) cf +
adA
4⇡+ Lint
cf = composite fermion
Son PRX (2015). Wang, Senthil PRB (2016). Metlitski, Vishwanath, PRB (2015). Mross, Alicea, Motrunich PRL (2016). Seiberg, Wang, Senthil, Witten Ann. Phys. (2016).
aµ
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Fermion vortex duality Dirac fermion
Le = e(i/@ � /A) e + Lint
Dirac composite fermion vortex
Lcf = cf (i/@ � /a) cf +adA
4⇡+ Lint
aµ
�nelec(r) =r⇥ ~a
4⇡
†e $ M4⇡
z ⇥~jelec(r) =ra0 + @t~a
4⇡
Electron creation is flux insertion operator
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IR “stronger version” of fermion vortex duality “free” Dirac fermion (2+1) QED
aµ
Le = e(i/@ � /A) e + Lint Lcf = cf (i/@ � /a) cf +adA
4⇡+ Lint
T
CT
T eT �1 = i�y e
T ~AT �1 = � ~A
CT e
CT �1 = �x †e
CT ~ACT �1 = ~A
Fixed point has no relevant perturbations What’s the fixed point here???
CT CT cfCT �1 = i�y cf
T cf
T �1 = �x †cf
T
CT ~aCT �1 = �~a
T ~aT �1 = ~a
Perturbative RG seems to find different fixed points?Roscher, Torres & Strack, JHEP 11 (2016) 017
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T-Pfaffian symmetry respecting surface topological order
T-Pfaffian Fu-Kane paired (2+1) QEDaµ
Le = e(i/@ � /A) e + Lint Lcf = cf (i/@ � /a) cf +adA
4⇡+ Lint
CTTRespects
h †cf
†cf i 6= 0
�Nelec =1
4Abrikosov
vortex
Ising ⇥ U(1)�8Subset of T� Pfa�an
(1) Vishwanath & Senthil, PRX 3, 011016 (2013). (2) Bonderson, Nayak, Qi, JSMTE, P09016 (2013). Wang, Potter, Senthil PRB 88, 115137 (2013). Chen, Fidkowski, Vishwanath, PRB 89, 165132 (2014). Metlitski, Kane, Fisher, PRB 92, 125111 (2015).
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T-Pfaffian symmetry respecting surface topological order
• Topological order = quasiparticle fractionalization.
• The only way to gap the surface without symmetry breaking is by inducing topological order (1).
• T-Pfaffian order (2):
• (1) Vishwanath & Senthil, PRX 3, 011016 (2013). (2) Bonderson, Nayak, Qi, JSMTE, P09016 (2013). Wang, Potter, Senthil PRB 88, 115137 (2013). Chen, Fidkowski, Vishwanath, PRB 89, 165132 (2014). Metlitski, Kane, Fisher, PRB 92, 125111 (2015).
T-Pfaffian PfaffianAnti-
Pfaffianxy
L0T=
1
2
e2
h
xy
L0T=
3
2
e2
h
xy
L0T= �1
2
e2
h
e-bosone/2-bosonMajorana
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Fermion vortex duality
composite fermion vortex
aµ~B Z
d2r †cf cf =
BA
4⇡=
N�
2
Fermi surface (metal) of vortices
Dirac fermion~B Zeroth
Landau level
Particle-hole symmetry
Half filled
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Dirac composite fermi liquid
• Son, PRX 5, 031027 (2015).• Wang, Senthil, Phys. Rev. B 93, 085110 (2016); arXiv:1604.06807 (2016).
(CT ) cf (CT )�1 = i�y cf ,
(CT )a0(CT )�1 = a0,
(CT )~a(CT )�1 = �~a.
cf
T
†cf
C
cf
Zeroth Landau
level
Particle-hole symmetry
Half filled
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• The celebrated exciton condensate in quantum Hall bilayers is identical to a BCS-type inter-layer paired state of composite fermions.
I. Sodemann, I. Kimchi (MIT), C. Wang (Harvard), T. Senthil (MIT),Phys. Rev. B 95, 085135 (2017).
C. Wang T. SenthilI. Kimchi
Main message
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Composite fermion metal
• Fractionalized metal for half filled landau level:
Ne =1
2N�
• Composite fermion: electron bound to two vortices
~Beff = 0~B 6= 0
electrons composite fermions
px
py
composite fermion fermi surface
• Jain, PRL 63, 199 (1989). • Halperin, Lee, Read, PRB 47, 7312 (1993).
Half filled zero Landau level ~B
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• No tunneling but strong interactions
Exciton condensate
top
bottom~n
|topi+ e
i�|bottomi
• Exciton condensate:
⌫ = ⌫top
+ ⌫bottom
= 1/2 + 1/2
hc†bottom
ctop
i / ei�
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• Superfluidity for charge imbalance:
• Half-charged vortices (merons):
Properties of exciton condensate
Q� = Qtop
�Qbottom
[Q�,�] = i
• Linearly dispersing Goldstone mode of (pseudo-spin wave).
�
Q+ = (vnz)e
2
nz = ±1
• Moon, Mori, Yang, Girvin, MacDonald, Zheng, Yoshioka, Zhang, PRB 51, 5138 (1995).• Wen, Zee, PRL 69, 1811 (1992).
v = 1
Q+ = e/2
2⇡ winding
E
q
Spin-wave
v 2 Z
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Properties of exciton condensate• Half-charged vortices (merons):
v = ±1
Q+ = (vnz)e
2
nz = ±1v = 1Q+ = e/2
2⇡ winding
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Bilayer exciton condensate and Composite fermion metal
Exciton condensate
• Are zero and infinity connected?
⌫ = ⌫top
+ ⌫bottom
= 1/2 + 1/2
d = 1d = 0Exciton condensate Two fermi liquids?
Theory Numerics
Bonesteel et al. PRL(1996) Möller et al. PRL (2008)
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I. Sodemann, I. Kimchi, C. Wang, T. Senthil, arxiv.1609.08616 (2016).
Bilayer exciton condensate and Composite fermion metal
• A special particle-hole invariant “cooper pairing” of composite fermions is equivalent to exciton condensate:
Composite fermion Cooper pairs
Exciton condensate
d
top
bottom
top
� = i †�y
⌧x
† ⇠ i †top
�y
†bottom
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Goldstone mode and photons
• Global gauge field is gapped via Higgs.
• Relative gauge field remains gapless. 2+1 Maxwell theory has a spontaneously broken symmetry:
†⌧x
(i�y
) †
aglobal U(1)
µ
arelative U(1)µ
!(q)
c�q
q
p+ip like !+0
hM�(r)M†�(0)i
|r|!1����! const
a+ =a1 + a2
2
a� =a1 � a2
2
netop
� nebottom
=r⇥ ~a�
2⇡
hc†bottom
ctop
i / ei� The state is an exciton condensate!
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Relative u(1) photon = Goldstone mode
• Photon is exciton condensate “spin-wave”.
†⌧x
(i�y
) †
aglobal U(1)
µ
arelative U(1)µ
!(q)
c�q
q
p+ip like !+0
• Electric charges under field are vortices of condensate order parameter:
a�
4⇡q� $ vorticity
z ⇥ (~jtop
(r)�~jbottom
(r)) =ra
0
+ @t~a
4⇡
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• Abrikosov vortices carry half charge:
⇡ � vortex
Q = 1/2
Q⇡ = ±1
2netop
+ nebottom
=r⇥ ~a
+
2⇡
Abrikosov vortices and merons
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• Abrikosov vortices carry half charge:
⇡ � vortex
Q = 1/2
Q⇡ = ±1
2netop
+ nebottom
=r⇥ ~a
+
2⇡
• Abrikosov vortices have a complex fermion zero mode:
|1i ⌘ †0|0i
|0i |1i
|0i
Layer X-change
|1i
|0iq� (vorticity)1/2
�1/2 �2⇡
2⇡
Abrikosov vortices = merons
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Abrikosov vortices = merons
⇡ � vortex
Q = 1/2
• Their fusion is a fermion:
The electron (with layer charge imbalance neutralized by condensate).
• Two Abrikosov vortices of opposite vorticity are mutual semions
⇡
|1i ⌘ †0|0i
|0i
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Bogoliubov fermion
⇡ � vortex
Q = 1/2
• Consider fusing two Abrikosov vortices of opposite flux but same charge (order parameter vorticity):
|1i ⌘ †0|0i
chargea�
a�
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Bogoliubov fermion
⇡ � vortex
Q = 1/2
|1i ⌘ †0|0i
chargea�
• Fusion is Bogoliubov fermion
• Consider fusing two Abrikosov vortices of opposite flux but same charge (order parameter vorticity): a�
4⇡ charge neutral Kramers vortex
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Q = 1/2XY vortex
2⇡ winding
Abrikosov vortex
Dictionary
E
q
Spin-wave Photon
E
qa1 � a2
Exciton condensateComposite fermion
superconductor
⇡ flux
Q = 1/2
Q = �1/2Q = 1/2
neutral vortex4⇡
Charge neutral Dipole carrying
Composite fermion
Phys. Rev. B 95, 085135 (2017).
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• Interlayer pairing is:
Claim: Interlayer CT-invariant (px+ipy) paired state equals exciton condensate
• In HLR picture this channel corresponds to px+ipy interlayer paring:
� = i †�y
⌧x
† ⇠ i †top
�y
†bottom
� ⇠ i †⌧x
(px
+ ipy
) †
= �BCS({zi, wj})Y
i<j
(zi � zj)2Y
i<j
(wi � wj)2
�BCS ⇠ |topii|bottomij + |bottomii|topijzi � wj
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Wave-function argument• Exciton condensate wave-function:
z :topw :bottom
• p+ip paired CF wave-function:
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Experiments
Eisenstein, ARCMP (2014)
No support for this:
P. Giudici, et al. PRL (2008)
Bonesteel et al. PRL (1996)
�(e2/✏l)
⇠ 1
⇠ 1
d/l
Experimental phase transition could be disorder driven:
� ⇠ W
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Anatomy of Composite fermion metal• Composite fermion is a dipolar object electron bound to two vortices:
px
py
composite fermion fermi surface
1/2Laughlin ⇠
Y
i<j
(zi � zj)2
ki = l2di ⇥ z
Bosons:
Fermions: 1/2CFL ⇠
Y
i<j
(zi � zj)(zi � di � zj � dj)
e/2
�e/2
~d~k
Read, Sem. Sci. & Tech. (1994). Wang & Senthil, PRB (2016).
zj
zj + ~d