the interplay of antiferromagnetism and …qpt.physics.harvard.edu/talks/cifar12.pdfthe interplay of...
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The interplay of antiferromagnetism and superconductivity:
new results and open questions
HARVARDsachdev.physics.harvard.edu
Subir Sachdev
Saturday, October 20, 12
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Max Metlitski
HARVARD
Erez Berg
Matthias Punk
Saturday, October 20, 12
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1. Sign-problem free quantum Monte Carlo for the onset of antiferromagnetism in metals
2. Hole-doped cuprates: Where are the electron pockets in the Brillouin zone ?
Is the pseudogap state an exotic metal with Fermi pockets which violate the Luttinger relation ? (Such a violation requires emergent gauge excitations: an example of such a metal is the Z2-FL* state)
Outline
Saturday, October 20, 12
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1. Sign-problem free quantum Monte Carlo for the onset of antiferromagnetism in metals
2. Hole-doped cuprates: Where are the electron pockets in the Brillouin zone ?
Is the pseudogap state an exotic metal with Fermi pockets which violate the Luttinger relation ? (Such a violation requires emergent gauge excitations: an example of such a metal is the Z2-FL* state)
Outline
Saturday, October 20, 12
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BaFe2(As1�x
Px
)2
K. Hashimoto, K. Cho, T. Shibauchi, S. Kasahara, Y. Mizukami, R. Katsumata, Y. Tsuruhara, T. Terashima, H. Ikeda, M. A. Tanatar, H. Kitano, N. Salovich, R. W. Giannetta, P. Walmsley, A. Carrington, R. Prozorov, and Y. Matsuda, Science 336, 1554 (2012).
Resistivity⇠ ⇢0 +ATn
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BaFe2(As1�x
Px
)2
K. Hashimoto, K. Cho, T. Shibauchi, S. Kasahara, Y. Mizukami, R. Katsumata, Y. Tsuruhara, T. Terashima, H. Ikeda, M. A. Tanatar, H. Kitano, N. Salovich, R. W. Giannetta, P. Walmsley, A. Carrington, R. Prozorov, and Y. Matsuda, Science 336, 1554 (2012).
Saturday, October 20, 12
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Nd2�xCexCuO4
T. Helm, M. V. Kartsovnik, M. Bartkowiak, N. Bittner,
M. Lambacher, A. Erb, J. Wosnitza, and R. Gross,
Phys. Rev. Lett. 103, 157002 (2009).
Increasing SDW order
s
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Fermi surface+antiferromagnetism
The electron spin polarization obeys�
⌃S(r, �)⇥
= ⌃⇥(r, �)eiK·r
where K is the ordering wavevector.
+
Metal with “large” Fermi surface
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Metal with “large” Fermi surface
h~'i = 0
Antiferromagnetic metal with electron and hole pockets
Increasing SDW order
h~'i 6= 0
S. Sachdev, A. V. Chubukov, and A. Sokol, Phys. Rev. B 51, 14874 (1995). A. V. Chubukov and D. K. Morr, Physics Reports 288, 355 (1997).
Increasing interaction
Fermi surface+antiferromagnetism
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“Yukawa” coupling between fermions andantiferromagnetic order:
�2 ⇠ U , the Hubbard repulsion
S =
Zd2rd⌧ [Lc + L' + Lc']
Lc = c†a"(�ir)ca
L' =1
2(r'↵)
2 +r
2'2↵ +
u
4
�'2↵
�2
Lc' = �'↵ eiK·r c†a �↵ab cb.
Theory for onset of antiferromagnetism
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Metal with “large” Fermi surface
Fermi surface+antiferromagnetism
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Fermi surfaces translated by K = (�,�).
Fermi surface+antiferromagnetism
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“Hot” spots
Fermi surface+antiferromagnetism
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Electron and hole pockets in
antiferromagnetic phase with h~'i 6= 0
Fermi surface+antiferromagnetism
Saturday, October 20, 12
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Pairing “glue” from antiferromagnetic fluctuations
V. J. Emery, J. Phys. (Paris) Colloq. 44, C3-977 (1983)D.J. Scalapino, E. Loh, and J.E. Hirsch, Phys. Rev. B 34, 8190 (1986)
K. Miyake, S. Schmitt-Rink, and C. M. Varma, Phys. Rev. B 34, 6554 (1986)S. Raghu, S.A. Kivelson, and D.J. Scalapino, Phys. Rev. B 81, 224505 (2010)
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Unconventional pairing at and near hot spots
���
Dc†k�c
†�k⇥
E= ��⇥�(cos kx � cos ky)
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LargeFermi
surface
StrangeMetal
Spin density wave (SDW)
d-wavesuperconductor
Small Fermipockets with
pairing fluctuationsFluctuating, paired Fermi
pockets
QCP for the onset of SDW order is actually within a superconductor
Fermi surface+antiferromagnetism
QuantumCritical
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“Hot” spotsSaturday, October 20, 12
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Low energy theory for critical point near hot spotsSaturday, October 20, 12
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Low energy theory for critical point near hot spotsSaturday, October 20, 12
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v1 v2
�2 fermionsoccupied
�1 fermionsoccupied
Theory has fermions 1,2 (with Fermi velocities v1,2)
and boson order parameter ~',interacting with coupling �
kx
ky
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Theory has fermions 1,2 (with Fermi velocities v1,2)
and boson order parameter ~',interacting with coupling �
L = †1↵ (@⌧ � iv1 ·rr) 1↵ + †
2↵ (@⌧ � iv2 ·rr) 2↵
+1
2(rr ~')
2 +s
2~'2 +
u
4~'4
��~' ·⇣ †1↵~�↵� 2� + †
2↵~�↵� 1�
⌘
Ar. Abanov and A.V. Chubukov, Phys. Rev. Lett. 93, 255702 (2004).Saturday, October 20, 12
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Theory has fermions 1,2 (with Fermi velocities v1,2)
and boson order parameter ~',interacting with coupling �
L = †1↵ (@⌧ � iv1 ·rr) 1↵ + †
2↵ (@⌧ � iv2 ·rr) 2↵
+1
2(rr ~')
2 +s
2~'2 +
u
4~'4
��~' ·⇣ †1↵~�↵� 2� + †
2↵~�↵� 1�
⌘
Note fermion spectrum has lines of zero energy
excitations in momentum space.
If fermions are replaced by massless Dirac
fermions with points of zero energy excitations,
then critical theory is well-understood
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Theory has fermions 1,2 (with Fermi velocities v1,2)
and boson order parameter ~',interacting with coupling �
L = †1↵ (@⌧ � iv1 ·rr) 1↵ + †
2↵ (@⌧ � iv2 ·rr) 2↵
+1
2(rr ~')
2 +s
2~'2 +
u
4~'4
��~' ·⇣ †1↵~�↵� 2� + †
2↵~�↵� 1�
⌘
M. A. Metlitski and S. Sachdev, Phys. Rev. B 82, 075128 (2010)S.A. Hartnoll, D.M. Hofman, M. A. Metlitski and S. Sachdev, Phys. Rev. B 84, 125115 (2011)
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Theory has fermions 1,2 (with Fermi velocities v1,2)
and boson order parameter ~',interacting with coupling �
L = †1↵ (@⌧ � iv1 ·rr) 1↵ + †
2↵ (@⌧ � iv2 ·rr) 2↵
+1
2(rr ~')
2 +s
2~'2 +
u
4~'4
��~' ·⇣ †1↵~�↵� 2� + †
2↵~�↵� 1�
⌘
M. A. Metlitski and S. Sachdev, Phys. Rev. B 82, 075128 (2010)S.A. Hartnoll, D.M. Hofman, M. A. Metlitski and S. Sachdev, Phys. Rev. B 84, 125115 (2011)
Theory flows to
strong-coupling in d = 2.
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v1 v2
Theory has fermions 1,2 (with Fermi velocities v1,2)
and boson order parameter ~',interacting with coupling �
kx
ky
To faithfully realize low energy theory in quantum Monte Carlo,
we need a UV completion in which Fermi lines don’t end
and all weights are positive.
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K
Hot spots in a single band model
QMC for the onset of antiferromagnetism
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K
Hot spots in a two band model
QMC for the onset of antiferromagnetism
E. Berg, M. Metlitski, and
S. Sachdev, arXiv:1206.0742
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Faithful realization
of the generic
universal low
energy theory for the onset
of antiferro-
magnetism.
K
Hot spots in a two band model
QMC for the onset of antiferromagnetism
E. Berg, M. Metlitski, and
S. Sachdev, arXiv:1206.0742
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K
Hot spots in a two band model
QMC for the onset of antiferromagnetism
E. Berg, M. Metlitski, and
S. Sachdev, arXiv:1206.0742
Saturday, October 20, 12
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Sign problem is absent as long as K connects
hotspots in distinct bands
K
Hot spots in a two band model
QMC for the onset of antiferromagnetism
E. Berg, M. Metlitski, and
S. Sachdev, arXiv:1206.0742
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K
Hot spots in a two band model
QMC for the onset of antiferromagnetism
E. Berg, M. Metlitski, and
S. Sachdev, arXiv:1206.0742
Particle-hole or point-group
symmetries or commensurate densities not
required !
Sign problem is absent as long as K connects
hotspots in distinct bands
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QMC for the onset of antiferromagnetism
Electrons with dispersion "
k
interacting with fluctuations of the
antiferromagnetic order parameter ~'.
Z =
ZDc
↵
D~' exp (�S)
S =
Zd⌧
X
k
c
†k↵
✓@
@⌧
� "
k
◆c
k↵
+
Zd⌧d
2x
1
2
(rx
~')
2+
r
2
~'
2+ . . .
�
� �
Zd⌧
X
i
~'
i
· (�1)
xic
†i↵
~�
↵�
c
i�
Saturday, October 20, 12
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Electrons with dispersions "(x)k
and "
(y)k
interacting with fluctuations of theantiferromagnetic order parameter ~'.
Z =
ZDc
(x)↵
Dc
(y)↵
D~' exp (�S)
S =
Zd⌧
X
k
c
(x)†k↵
✓@
@⌧
� "
(x)k
◆c
(x)k↵
+
Zd⌧
X
k
c
(y)†k↵
✓@
@⌧
� "
(y)k
◆c
(y)k↵
+
Zd⌧d
2x
1
2(r
x
~')2+
r
2~'
2 + . . .
�
� �
Zd⌧
X
i
~'
i
· (�1)xic
(x)†i↵
~�
↵�
c
(y)i�
+H.c.
QMC for the onset of antiferromagnetism
E. Berg, M. Metlitski, and
S. Sachdev, arXiv:1206.0742
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Electrons with dispersions "(x)k
and "
(y)k
interacting with fluctuations of theantiferromagnetic order parameter ~'.
Z =
ZDc
(x)↵
Dc
(y)↵
D~' exp (�S)
S =
Zd⌧
X
k
c
(x)†k↵
✓@
@⌧
� "
(x)k
◆c
(x)k↵
+
Zd⌧
X
k
c
(y)†k↵
✓@
@⌧
� "
(y)k
◆c
(y)k↵
+
Zd⌧d
2x
1
2(r
x
~')2+
r
2~'
2 + . . .
�
� �
Zd⌧
X
i
~'
i
· (�1)xic
(x)†i↵
~�
↵�
c
(y)i�
+H.c.
QMC for the onset of antiferromagnetism
No sign problem !
E. Berg, M. Metlitski, and
S. Sachdev, arXiv:1206.0742
Saturday, October 20, 12
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Electrons with dispersions "(x)k
and "
(y)k
interacting with fluctuations of theantiferromagnetic order parameter ~'.
Z =
ZDc
(x)↵
Dc
(y)↵
D~' exp (�S)
S =
Zd⌧
X
k
c
(x)†k↵
✓@
@⌧
� "
(x)k
◆c
(x)k↵
+
Zd⌧
X
k
c
(y)†k↵
✓@
@⌧
� "
(y)k
◆c
(y)k↵
+
Zd⌧d
2x
1
2(r
x
~')2+
r
2~'
2 + . . .
�
� �
Zd⌧
X
i
~'
i
· (�1)xic
(x)†i↵
~�
↵�
c
(y)i�
+H.c.
QMC for the onset of antiferromagnetism
Applies without changes to the
microscopic band structure in the
iron-based superconductors
E. Berg, M. Metlitski, and
S. Sachdev, arXiv:1206.0742
Saturday, October 20, 12
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Electrons with dispersions "(x)k
and "
(y)k
interacting with fluctuations of theantiferromagnetic order parameter ~'.
Z =
ZDc
(x)↵
Dc
(y)↵
D~' exp (�S)
S =
Zd⌧
X
k
c
(x)†k↵
✓@
@⌧
� "
(x)k
◆c
(x)k↵
+
Zd⌧
X
k
c
(y)†k↵
✓@
@⌧
� "
(y)k
◆c
(y)k↵
+
Zd⌧d
2x
1
2(r
x
~')2+
r
2~'
2 + . . .
�
� �
Zd⌧
X
i
~'
i
· (�1)xic
(x)†i↵
~�
↵�
c
(y)i�
+H.c.
QMC for the onset of antiferromagnetism
E. Berg, M. Metlitski, and
S. Sachdev, arXiv:1206.0742
Can integrate out ~' toobtain an extendedHubbard model. The
interactions in this modelonly couple electrons in
separate bands.
Saturday, October 20, 12
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K
Hot spots in a two band model
QMC for the onset of antiferromagnetism
E. Berg, M. Metlitski, and
S. Sachdev, arXiv:1206.0742
Saturday, October 20, 12
![Page 39: The interplay of antiferromagnetism and …qpt.physics.harvard.edu/talks/cifar12.pdfThe interplay of antiferromagnetism and superconductivity: new results and open questions sachdev.physics.harvard.edu](https://reader035.vdocuments.us/reader035/viewer/2022063020/5fe26ed7ce98ab366a430cab/html5/thumbnails/39.jpg)
!1
!0.5
0
0.5
1k y/! K
a)
QMC for the onset of antiferromagnetism
Center Brillouin zone at (π,π,)
E. Berg, M. Metlitski, and
S. Sachdev, arXiv:1206.0742
Saturday, October 20, 12
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−1 0 1−1
−0.5
0
0.5
1
kx/π
k y/π
−1 0 1−1
−0.5
0
0.5
1
k y/π kx/π
K
a) b)
QMC for the onset of antiferromagnetism
Move one of the Fermi surface by (π,π,)
E. Berg, M. Metlitski, and
S. Sachdev, arXiv:1206.0742
Saturday, October 20, 12
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!1
!0.5
0
0.5
1k y/!
a)
QMC for the onset of antiferromagnetism
Now hot spots are at Fermi surface intersections
E. Berg, M. Metlitski, and
S. Sachdev, arXiv:1206.0742
Saturday, October 20, 12
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−1 0 1−1
−0.5
0
0.5
1
kx/π
k y/π
−1 0 1−1
−0.5
0
0.5
1k y/π
kx/π
K
a) b)
QMC for the onset of antiferromagnetism
Expected Fermi surfaces in the AFM ordered phase
E. Berg, M. Metlitski, and
S. Sachdev, arXiv:1206.0742
Saturday, October 20, 12
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E. Berg, M. Metlitski, and S. Sachdev, arXiv:1206.0742
QMC for the onset of antiferromagnetism
−1 0 1−1
−0.5
0
0.5
1r = −0.5
kx/π
k y/π
−1 0 1−1
−0.5
0
0.5
1
kx/π
r = 0
−1 0 1−1
−0.5
0
0.5
1
kx/π
r = 0.5
0.5
1
1.5
Electron occupation number nk
as a function of the tuning parameter r
Saturday, October 20, 12
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QMC for the onset of antiferromagnetism
−0.5 0 0.5 1
0
0.1
0.2
0.3
0.4
rBi
nder
cum
ulan
t−0.5 0 0.5 10
0.2
0.4
0.6
r
χ φ/(L
2 β)
L=8L=10L=12L=14
a) b)
AF susceptibility, �', and Binder cumulant
as a function of the tuning parameter r
E. Berg, M. Metlitski, and S. Sachdev, arXiv:1206.0742
Saturday, October 20, 12
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QMC for the onset of antiferromagnetism
−2 −1 0 1 2 3−2
0
2
4
6
8
10 x 10−4
r
P ±(xmax
)L = 10
L = 14
L = 12
rc
↑
P+
_
_P_
|
s/d pairing amplitudes P+/P�as a function of the tuning parameter r
E. Berg, M. Metlitski, and S. Sachdev, arXiv:1206.0742
Saturday, October 20, 12
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QMC for the onset of antiferromagnetism
−2 −1 0 1 2 3−2
0
2
4
6
8
10 x 10−4
r
P ±(xmax
)L = 10
L = 14
L = 12
rc
↑
P+
_
_P_
|
Notice shift between the position of the QCP in the superconductor, and the position of maximum pairing.
This is found in numerous experiments.
E. Berg, M. Metlitski, and S. Sachdev, arXiv:1206.0742
Saturday, October 20, 12
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1. Sign-problem free quantum Monte Carlo for the onset of antiferromagnetism in metals
2. Hole-doped cuprates: Where are the electron pockets in the Brillouin zone ?
Is the pseudogap state an exotic metal with Fermi pockets which violate the Luttinger relation ? (Such a violation requires emergent gauge excitations: an example of such a metal is the Z2-FL* state)
Outline
Saturday, October 20, 12
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1. Sign-problem free quantum Monte Carlo for the onset of antiferromagnetism in metals
2. Hole-doped cuprates: Where are the electron pockets in the Brillouin zone ?
Is the pseudogap state an exotic metal with Fermi pockets which violate the Luttinger relation ? (Such a violation requires emergent gauge excitations: an example of such a metal is the Z2-FL* state)
Outline
Saturday, October 20, 12
![Page 49: The interplay of antiferromagnetism and …qpt.physics.harvard.edu/talks/cifar12.pdfThe interplay of antiferromagnetism and superconductivity: new results and open questions sachdev.physics.harvard.edu](https://reader035.vdocuments.us/reader035/viewer/2022063020/5fe26ed7ce98ab366a430cab/html5/thumbnails/49.jpg)
Hole-doped
Electron-doped
?
Saturday, October 20, 12
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35
Consistent with antinodal pseudogap (at least at low fields)
35
C. C. Holmes et al. Phys. Rev. Lett. 71, 1645 (1993)
Peets D C… Damascelli A New J. Phys. 9 28 (2007)
YBCO6+x
Pseudogap state has no low energy fermions in the antinodal region
Saturday, October 20, 12
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48
Resonant x-ray scattering Surprise – wavevectors 3.3a, biaxial
48
E ≃ 931 eV Q = (0.31, 0) and (0, 0.31) Correlation length ξ≈ 60Å
Ghiringelli et al. (http://dx.doi.org/10.1126/science.1223532)
YBa2Cu3O6.6
QCDW 2QSDW
Saturday, October 20, 12
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53 53
E ≃ 100 keV YBa2Cu3O6.67 (ortho-VIII)
Correlation length ξ≈ 98Å (at 2K and 17T) qCDW= q1=(δ1,0,0.5) and q2=(0,δ2,0.5),where δ1 ≈ 0.30 and δ2≈0.31.
Hard x-ray scattering in agreement with results from resonant
x-ray scattering
J. Chang et al. arXiv: 1206.4333
Saturday, October 20, 12
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40
Nodal pocket with electron-like direction of cyclotron motion
40
N. Harrison & SES Phys. Rev. Lett. 106, 226402 (2011) S. E. Sebastian et al., Rep. Prog. Physics (in press, 2012)
40
Nodal pocket with electron-like direction of cyclotron motion
40
N. Harrison & SES Phys. Rev. Lett. 106, 226402 (2011) S. E. Sebastian et al., Rep. Prog. Physics (in press, 2012)
Saturday, October 20, 12
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51
Or potentially, a wavevector connecting tips of arcs
51 S. E. Sebastian et al., Rep. Prog. Physics (in press, 2012)
In reality, such an electron pocket is a reconstruction of a parent state which has no Fermi surface in the anti-nodal region. So if we
accept this picture, the parent state is very exotic ! A metal with Fermi surfaces only near the nodes, and no broken
symmetry, which violates the Luttinger relation. Saturday, October 20, 12
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Metal with “large” Fermi surface
Quantum phase transition with Fermi surface reconstruction
h~'i = 0
Metal with electron and hole pockets
Increasing SDW order
h~'i 6= 0
Saturday, October 20, 12
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Metal with “large” Fermi surface
Metal with electron and hole pockets
Increasing SDW order
h~'i 6= 0 h~'i = 0
Separating onset of SDW orderand Fermi surface reconstruction
Saturday, October 20, 12
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Metal with “large” Fermi surface
Metal with electron and hole pockets
Increasing SDW order
h~'i 6= 0 h~'i = 0
Fractionalized Fermi liquid (FL*) phasewith no symmetry
breaking and “small” Fermi surface
h~'i = 0
Separating onset of SDW orderand Fermi surface reconstruction
Electron and/or hole Fermi pockets form in “local” SDW order, but quantum fluctuations destroy long-range
SDW order
T. Senthil, S. Sachdev, and M. Vojta, Phys. Rev. Lett. 90, 216403 (2003)Saturday, October 20, 12
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Heavy Fermi liquid with “large” Fermi
surface of hydridized f and
c-conduction electrons
Magnetic order and the heavy Fermi liquid in the Kondo lattice
h~'i = 0
Magnetic Metal: f-electron moments
and c-conduction electron
Fermi surface
h~'i 6= 0
f
c
f+c
Saturday, October 20, 12
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Separating onset of SDW order and the heavy Fermi liquid in the Kondo lattice
Magnetic Metal: f-electron moments
and c-conduction electron
Fermi surface
h~'i 6= 0
f
c
Heavy Fermi liquid with “large” Fermi
surface of hydridized f and
c-conduction electrons
h~'i = 0
f+c
T. Senthil, S. Sachdev, and M. Vojta, Phys. Rev. Lett. 90, 216403 (2003)Saturday, October 20, 12
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Separating onset of SDW order and the heavy Fermi liquid in the Kondo lattice
Magnetic Metal: f-electron moments
and c-conduction electron
Fermi surface
h~'i 6= 0
f
c
Heavy Fermi liquid with “large” Fermi
surface of hydridized f and
c-conduction electrons
h~'i = 0
f+c
c
f
Conduction electronFermi surface
andspin-liquid of f-electrons
h~'i = 0
T. Senthil, S. Sachdev, and M. Vojta, Phys. Rev. Lett. 90, 216403 (2003)Saturday, October 20, 12
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Separating onset of SDW order and the heavy Fermi liquid in the Kondo lattice
Magnetic Metal: f-electron moments
and c-conduction electron
Fermi surface
h~'i 6= 0
f
c
Heavy Fermi liquid with “large” Fermi
surface of hydridized f and
c-conduction electrons
h~'i = 0
f+c
c
f
Fractionalized Fermi liquid (FL*) phasewith no symmetry
breaking and “small” Fermi surface
h~'i = 0
T. Senthil, S. Sachdev, and M. Vojta, Phys. Rev. Lett. 90, 216403 (2003)Saturday, October 20, 12
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f- sp
in:
loca
lized
delo
caliz
ed
Fractionalized Fermi liquid (FL*)
AFM Metal
large Fermi surface heavy Fermi liquid
YbAlB4
K
Q
Kc
Qc
QC1
QC2
YbRh2Si2Yb(Rh0.94Ir0.06)2Si2
YbAgGe
YbRh2(Si0.95Ge0.05)2
Yb(Rh0.93Co0.07)2Si2
QTC
Kondo screened paramagnet
spin
liqu
id
YbIr2Si2
CeCu2Si2
Experimental perpective on same phase diagrams of Kondo lattice
J. Custers, P. Gegenwart, C. Geibel, F. Steglich,
P. Coleman, and S. Paschen, Phys. Rev. Lett.
104, 186402 (2010)
Saturday, October 20, 12
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Metal with “large” Fermi surface
Metal with electron and hole pockets
Increasing SDW order
h~'i 6= 0 h~'i = 0
Fractionalized Fermi liquid (FL*) phasewith no symmetry
breaking and “small” Fermi surface
h~'i = 0
Separating onset of SDW orderand Fermi surface reconstruction
Electron and/or hole Fermi pockets form in “local” SDW order, but quantum fluctuations destroy long-range
SDW order
T. Senthil, S. Sachdev, and M. Vojta, Phys. Rev. Lett. 90, 216403 (2003)Saturday, October 20, 12
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0.0 0.5 1.0 1.5 2.0 2.5 3.00.0
0.5
1.0
1.5
2.0
2.5
3.0
k_x
k_y
0.0 0.5 1.0 1.5 2.0 2.5 3.00.0
0.5
1.0
1.5
2.0
2.5
3.0
k_x
k_y
Hole pocket of a Z2-FL* phasein a single-band t-J model
M. Punk and S. Sachdev, Phys. Rev. B 85, 195123 (2012)Saturday, October 20, 12
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Characteristics of FL* phase
• Fermi surface volume does not countall electrons.
• Such a phase must have neutral S = 1/2 ex-citations (”spinons”), and collective spinlessgauge excitations (“topological” order).
• These topological excitations are needed toaccount for the deficit in the Fermi surfacevolume, in M. Oshikawa’s proof of theLuttinger theorem.
T. Senthil, S. Sachdev, and M. Vojta, Phys. Rev. Lett. 90, 216403 (2003)Saturday, October 20, 12
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Characteristics of FL* phase
• Fermi surface volume does not countall electrons.
• Such a phase must have neutral S = 1/2 ex-citations (”spinons”), and collective spinlessgauge excitations (“topological” order).
• These topological excitations are needed toaccount for the deficit in the Fermi surfacevolume, in M. Oshikawa’s proof of theLuttinger theorem.
T. Senthil, S. Sachdev, and M. Vojta, Phys. Rev. Lett. 90, 216403 (2003)Saturday, October 20, 12
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Characteristics of FL* phase
• Fermi surface volume does not countall electrons.
• Such a phase must have neutral S = 1/2 ex-citations (”spinons”), and collective spinlessgauge excitations (“topological” order).
• These topological excitations are needed toaccount for the deficit in the Fermi surfacevolume, in M. Oshikawa’s proof of theLuttinger theorem.
T. Senthil, S. Sachdev, and M. Vojta, Phys. Rev. Lett. 90, 216403 (2003)Saturday, October 20, 12
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Solved sign-problem for generic universal theory for the onset of antiferromagnetism in
two-dimensional metals. Good prospects for studying non-Fermi liquid
physics at non-zero temperature
Conclusions
Saturday, October 20, 12
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Pseudo-gap phase of hole-doped cuprates asa “fractionalized Fermi liquid”:
Hole pockets which violate the Luttinger theorem, in a phase with “topological” excitations.
Conclusions
Saturday, October 20, 12