Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. ·...
Transcript of Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. ·...
![Page 1: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/1.jpg)
Superconductivity from repulsion
Andrey Chubukov
University of Wisconsin
Lecture 2 RG treatment of superconductivity
School on modern superconductivity, Boulder, CO, July 2014
![Page 2: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/2.jpg)
Yesterday’s lecture:
• Generic conditions for SC• Kohn-Luttinger mechanism• p-wave pairing in isotropic systems
![Page 3: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/3.jpg)
For the rest of today’s lecture I will explore KL idea that the effective pairing interaction is different from a bare repulsive U due to screening by other fermions, and may
have attractive components in some channels
•cuprates
• doped graphene
• Fe-pnictides
Each case will represent different lattice version of KL physics
Walter Kohn
Joaquin Luttinger
![Page 4: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/4.jpg)
Kohn-Luttinger story for Hubbard model:
At second order in U, pairing interaction at large momentumtransfer is enhanced more than at small momentum transfer,
and the result is p-wave superconductivity
At first order in Hubbard U, no pairing interaction is non-s-wave channel
![Page 5: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/5.jpg)
Parent compounds are antiferromagnetic insulators
Superconductivity emerges upon either hole or electron doping
electron-doped hole-dopedsuperconductor
Strange Metal
The cuprates (1986…)
![Page 6: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/6.jpg)
Overdoped compounds are metals and Fermi liquids
![Page 7: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/7.jpg)
Overdoped compounds are metals and Fermi liquids
Tl2Ba2CuO6+
Photoemission
Plate et al
![Page 8: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/8.jpg)
Overdoped compounds are metals and Fermi liquids
Tl2Ba2CuO6+
Vignolle et al
Oscillations of magnetoresistance
Area is consistent with Luttinger count for electrons in a Fermi liquid
![Page 9: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/9.jpg)
I
Let’s find lattice analog of expanding into harmonics
We have repulsive interactionswithin a patch
1
2
U U g4
U g3
pairingfor0 Uneed,gg U,ggU
:channelspairingTwo
34b34a
and between patches
g3
g4
Let’s look at regions with the highest density of states
![Page 10: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/10.jpg)
I1
2 Do Kohn-Luttinger analysis for short-range repulsion U
To first order, we have aconstant repulsive interaction –g4=g3=U, hence Ua >0, Ub =0
To order U2
+g
Long story short: g3> g4, hence Ub <0
U
,gg U,ggU 34b34a
g4
g3
U2 term, different
for g3 and g4
![Page 11: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/11.jpg)
+
1
2
0 0
00
d-wave
Shen, Dessau et al 93, Campuzano et al, 96
Eigenvector for Ub = -g4 g3superconducting order parameter changes sign between patches
![Page 12: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/12.jpg)
d-wave pairing is a well established phenomenonOliver E. Buckley Condensed Matter Physics Prize
Campuzano
Johnson
Z-X Shen
Tsuei
Van Harlingen
Ginsberg
Kirtley
![Page 13: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/13.jpg)
dopingdoping
Ba(Fe1-xCox)2As2Ba1-xKxFe2As2
BaFe2As1-xPx
Weakly/moderately doped Fe-pnictides The pnictides (2008…)
![Page 14: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/14.jpg)
2-3 circular hole pockets around (0,0)
2 elliptical electron pockets around ) (folded BZ), or and (unfolded BZ)
Electron Fermi surfaceHole Fermi
surface
These are multi-band systems
![Page 15: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/15.jpg)
hole FS
g4
g3
electron FS g4
A toy model: one hole and one electron pocket
SCforneededis0U
Intra-pocketrepulsion g3
Inter-pocketrepulsion g4
,ggU 43a ,ggU 34b
is what Usee willwewave-sordinary an isU
b
a
![Page 16: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/16.jpg)
As before, consider Hubbard U
To first order in U, g4=g3=U, and we only have arepulsive s-wave component Ua Ub
To order U2+
Do Kohn-Luttinger analysis:
Inter-pocket repulsion g3 exceeds intra-pocker repulsion g4,and Ub becomes negative, i.e., superconductivity develops
SCforneededis0U,ggU
,ggU
43b
43a
Agterberg, Barzykin, Gorkov,Mazin, Kuroki, A.C, Tesanovic, D-H Lee..
+
sign-changing s-wave gap s+--
![Page 17: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/17.jpg)
Almost angle-independent gap (consistent with s-wave)
NdFeAsO1-xFx
Photoemission in 1111 and 122 FeAs
T. Shimojima et al
BaFe2(As1-xPx)2
S-wave
T. Kondo et al.
Data on the hole Fermi surfaces
laserARPES
![Page 18: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/18.jpg)
Neutron scattering – resonance peak below 2D
D. Inosov et al.
kk -needsone:sayTheorists
Eremin & Korshunov Scalapino & Maier…
The “plus-minus” gapis the best candidate
s+- gap
s+- gap
D. Inosov et al
![Page 19: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/19.jpg)
Graphene -- an atomic-scale honeycomb latticemade of carbon atoms.
Nobel Prize 2010Andre Geim, Konstantin Novoselov
Doped graphene (2000…)
![Page 20: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/20.jpg)
pointsDirac0,
pointsHove van ,t1
K
M1
M3
M2
-2
3kcos4
2k3cos
23k
cos41 t(k) y2xy1
![Page 21: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/21.jpg)
K
M
E. Rotenberg et alPRL 104, 136803 (2010)
Dirac point
![Page 22: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/22.jpg)
BZ boundary
2x
2y
12 3-
23t)(M
Van Hove points
At van Hove doping 1y2xy
1 t-2
3kcos4
2k3cos
23k
cos41 t(k)
![Page 23: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/23.jpg)
1
2
3 U U U g4
U U U g3
To first order in U, g4=g3=U, and we only have arepulsive s-wave component, Uc Ub,c
To order U2 +g3,4
pairingfor0 Uneed we,gg U U,g2gU
:channelspairingThree
34cb34a
Do Kohn-Luttinger analysis for Hubbard U:
g3 g4 and Ub,c <0
g3
g3
g3
g4
are what Usee willwewave-sordinary an isU
cb,
a
![Page 24: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/24.jpg)
parameter order ctingSupercondu
The two d-wave solutions are degenerate by symmetry
Do they appear together?
Yes, and with relative factor i: d+id state
Gonzales
c b
chiral superconductivity (phase winds up by 4 )
c
![Page 25: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/25.jpg)
Summary of Kohn-Luttinger physics for lattice systems:
d-wave (dx2-y2 ) pairing in the cupratess+- in Fe-pnictidesd+id (dx2-y2 + dxy ) in doped graphene
At weak coupling, a fermionic system may undergo asuperconducting instability, despite that the interaction isrepulsive. The instability is never an ordinary s-wave
![Page 26: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/26.jpg)
This story is a little bit too good to be true.
In all three cases, we assumed that bareinteraction is a Hubbard U, in which case,in a relevant channel =0 to order U and becomes negative (attractive) to order U2
In reality, to first order in interaction, Ub = g4-g3 = Usmall - Ularge
small (large) is amomentum transfer
For any realistic interaction, Usmall > Ularge
Then bare U and the second order term has to overcome it
![Page 27: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/27.jpg)
Physicists, we have a problem
![Page 28: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/28.jpg)
One approach is to keep couplings weak, but see whetherwe can additionally enhance KL terms due to interplay withother potential instabilities, which develop along with SC.
Renormalization group (RG) approach
Two ways to resolve the problem:
Both assume that superconductivity is not the only instability in a given system, there is also a density-wave instability around.
Spin fluctuations
Superconductivity
or
![Page 29: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/29.jpg)
Two ways to resolve the problem:
Both assume that superconductivity is not the only instability in a given system, there is also a density-wave instability around.
Another approach is to abandon weak coupling and assume that density-waveinstability (magnetism or charge order) comes from fermions at high energies, of order bandwidth. As an example, near antiferromagnetic instability, inter-pocket/inter-patch interaction g3 is enhanced if we do fullRPA summation in the particle-hole channel (or use any other method toaccount for contributions from high-energy fermions)
Spin fluctuations
Superconductivity
![Page 30: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/30.jpg)
Let’s start with RG
![Page 31: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/31.jpg)
g3 and g4 are bare interactions, at energies of a bandwidth
For SC we need interactions at energiessmaller than the Fermi energy
E
EF ~ 0.1 eV W ~3-4 eV| |
0
Couplings flow due to renormalizations in all channels(particle-particle AND particle-hole channels)
Consider Fe-pnictides as an exampleSCforneededis0U
,gg-U,ggU
ba,
43b
43a
![Page 32: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/32.jpg)
Recall: the pairing (particle-particle channel)is logarithmically singular
At a non-zerototal frequency (or temperature)
This is a Cooper logarithm
We cannot treat the pairing channel perturbatively because each time we add an extra power of (small) interaction, it gets multiplied by a large logarithm, and the product may be as large as we want.
![Page 33: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/33.jpg)
k
Qk
TElogdd F
T22k
k
Then we have to treat particle-particle (SC) andparticle-hole channels on equal footings
Peculiarity of Fe-pnictides: because one pocket is electron-typeand the other is hole-type, renormalizations in particle-hole
channels are also logarithmically singular
This is true EVEN if there is no nesting, as we considerrenormalizations from fermions with EF < E <W.
![Page 34: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/34.jpg)
How to proceed: introduce all relevant couplings between low-energy fermions
Intra-pocket repulsion
Inter-pocket forward andbackward scattering
Inter-pocket repulsion
u4
v v
g3
g4 g4
g1 g2
![Page 35: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/35.jpg)
What these other interactions g1 and g2 do?
b) They lead to either spin-density-wave or charge-density-wave
Each of these orders obviously competes with superconductivity,but in the process of developing spin or charge order, fluctuations in the corresponding channels modify superconducting interactions, and modification is different forintra-pocket and inter-pocket interactions
a) They participate in KL renormalizations of g3 and g4
![Page 36: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/36.jpg)
ABC of RG treatment of superconductivity(let’s use blackboard)
![Page 37: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/37.jpg)
![Page 38: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/38.jpg)
![Page 39: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/39.jpg)
![Page 40: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/40.jpg)
![Page 41: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/41.jpg)
When more than one channel is involved,one needs to combine logarithmic renormalizationsfrom particle-particle AND particle-hole channels
This leads to parquet RG equations – all coupling talk toeach other and flow as we progressively integrate out contributions from fermions at energies larger than running E
So, we need to introduce all relevant couplings between low-energy fermions
This is not too terrible – we only have 5 differentcouplings in the two-band model
![Page 42: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/42.jpg)
Introduce all relevant couplings between low-energy fermions
Intra-pocket repulsion
Inter-pocket forward and backward scattering
Inter-pocket repulsion
= g4
= g3
Recall: we need enhancement of u3relative to u4 for superconductivity
u4 = g4
With apologies, I will from now label interactions as ui instead of gi
![Page 43: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/43.jpg)
Renormalization of u3
Particle-particle channel,Cooper logarithm
Kohn-Luttinger diagrams, “nesting logarithms”
Renormalization of u1
Also contains “nesting logaritms”
![Page 44: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/44.jpg)
EWlogL
,uudLdu
),u23u(4uudLdu
),u(uu2dLdu
,uudLdu
24
23
4
42133
2122
23
21
1
Combine all renormalizations into a set of RG requations
Without couplingbetween particle-holeand particle-particlechannels, we would have
,uudLdu
uu2dLdu
24
23
4
343
,)uu(dL
)ud(u
)uu(dL
)ud(u
234
34
234
43
234 Lbu,
Lau
both vanish at L >>1
![Page 45: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/45.jpg)
Lower energy
repulsion attraction
LLLLooowwweeeeeeeerrrrrrrrrrrrrrrrrrr eeennneeerrrgggyyywwweee
reeeeeeeeeeeeeeepulsion aaattractiiiiiiiiiiioooooooooooooooooooonnnnnnnnnnnnnnnnnnnnn
Over-screening: intraband interaction u4 changes sign and becomes attractive below some scale.
The fixed point: the pair hopping term u3 is the largest
With the coupling between particle-hole and particle-particle channels,
Physics: interaction g1, which leads to SDW order at large momentum transfer, pushes up another interaction at large momentum transfer, which is g3
![Page 46: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/46.jpg)
We can re-write parquet RG equations as equations for density-wave and superconducting vertices
Super- conductivity
Spin-density wave
Charge-density wave
![Page 47: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/47.jpg)
nt)
One-loop RG Flow – all channels SDW with real order parameter
s+- SC
CDW with imaginary order parameter (charge current)
Flow of the vertices
Lower boundary for parquet RG is the Fermi energy, EF
O(6) fixed point:3 for SDW, 2 for SC,1 for CDW
At some scale, generated by the system, s+- SC vertexchanges sign and becomes attractive
![Page 48: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/48.jpg)
2
EWlogL
,dLdg
),23(4dLdg
),(2dLdg
,dLdg
24
23
4
42133
2122
23
21
1
gg
gggg
ggg
gg
Renormalization group equations
Log W/E
repulsion attraction
Physics: interaction g1, which leads to SDW order at large momentum transfer, pushes up another interaction at large momentum transfer, which is g3
g3
g4
![Page 49: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/49.jpg)
What happens after SC vertex becomesattractive depends on geometry and on doping
2 hole and 2 electron FSs
SC
SCSDW
SDW
SC vertex can overshoot SDW vertex, in which case SC becomes the leading instability already at zero doping
1 hole and 1 electron FSs
At zero doping )g(g 13SDW)g(g 43SC
![Page 50: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/50.jpg)
SC
SDW
SC vertex always overshoots SDW vertex above some doping
At a finite doping
![Page 51: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/51.jpg)
Zero doping –SDW wins
A finite doping –s+- SC wins
LiFeAs, LiFeP, LOFeP --SC already at zero doping,
and no SDW order
![Page 52: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/52.jpg)
Co-existence of SC and SDW:
Suppose one order develops first, can the subleading one develop?
dopingdoping
depending on thedegree of ellipticityof electron FSs
Fernandes, Schmalian, et al,Vorontsov, Vavilov, AC
![Page 53: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/53.jpg)
The essential aspect of the physics is the mutual support between superconducting and spin-density-wave fluctuations: magnetic fluctuationsenhance tendency to superconductivity, and superconductingfluctuations enhance tendency to magnetism
However, once one order sets in, it fights against the appearance of the another one
Competition == good, monopoly == bad(at least for the physics)
Summary of RG
![Page 54: Superconductivity from repulsion Lecture 2 RG treatment of superconductivity · 2019. 12. 18. · Andrey Chubukov University of Wisconsin Lecture 2 RG treatment of superconductivity](https://reader035.fdocuments.us/reader035/viewer/2022071411/6106d0e5b718703d7367b237/html5/thumbnails/54.jpg)
To continue