forging a theory of unconventional superconductors: a new ...pjh/files/uf_colloquium_short.pdfp.j....
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![Page 1: Forging a theory of unconventional superconductors: a new ...pjh/files/UF_colloquium_short.pdfP.J. Hirschfeld, U. Florida UF August 2014 PH, M.M. Korshunov & I.I. Mazin, Rep. Prog](https://reader036.vdocuments.us/reader036/viewer/2022081411/60a96c740313ee47410314e0/html5/thumbnails/1.jpg)
P.J. Hirschfeld, U. Florida
UF August 2014
PH, M.M. Korshunov & I.I. Mazin, Rep. Prog. Phys. 74, 124508 (2011)
Forging a theory of unconventional superconductors: a new paradigm for electron pairing
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Collaborators
Lex Kemper (L. Berkeley)
Doug Scalapino UCSB
Thomas Maier ORNL
from U. Florida Dept. of Physics:
from rest of world:
Vivek Mishra (Argonne)
Greg Boyd (Georgetown)
Maxim Korshunov (Krasnoyarsk)
Saurabh Maiti NHMFL Dirac Pdoc
YanWang (U. Tenn.)
Andrey Chubukov U. Minn.
Wenya Rowe (Saclay)
Igor Mazin, NRL
Roser Valenti Frankfurt
FeSC theory
Ilya Eremin, Bochum
Hai-Ping Cheng
Brian Andersen Niels Bohr Inst.
Tom Berlijn (ORNL)
Peayush Choubey
Ilya Vekhter, LSU
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Discovery of superconductivity
Heike Kammerling Onnes (1911)
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•During 46 years, from 1911 to 1957, superconductivity is recognized as one of the most important problems in theoretical physics
Conventional superconductors
- Search for a theory of superconductivity: series of failures (see J. Schmalian in 50 Years of BCS)
“No one is brilliant enough to figure it out” Richard Feynman:
Heisenberg Bohr Landau Feynman Einstein
Fail: F Fail: F Fail: F Fail: F Fail: F
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• BCS theory (1957)
John Bardeen
Leon Cooper
Robert Schrieffer
Nobel prize : 1972
Quantum mechanical behavior at the macroscopic scale
Conventional superconductors
s-wave symmetry
Macro. Quantum State
∆ ≡ V⟨c-k↓ ck↑⟩ ~ ∆0eiφ
( ) | 0BCS k k k kk
u v c c∗ ∗↑ − ↓Ψ = + >∏
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Normal State (Metal) Low Temp. Cooper Pairing
L=0 S=0
KK
K
FX
Y
KK
K
FX
Y
|k> |-k>
Superconducting Ground State
~ Gas of Cooper Pairs Degenerate ~free electron gas
SC Ground State
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How can two electrons attract each other?
J. Robert Schrieffer: “By dancing they lower their energy or make themselves happier”
Dance analogy: coherent pairs
→
Another analogy:
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How Cooper pairs form in conventional superconductors: the “glue”: electron-phonon interaction
Note: electrons avoid Coulomb repulsion in time (interaction is retarded)
Screened Coulomb Electron-phonon attraction
Effective “residual” e-e interaction including Coulomb (“Jellium model”)
a b For realistic system, a≠b! Depend on details
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Why do some elements superconduct, others not?
a,b depend on details!
a b
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Discovery channel answer: once we have an attraction, we get pairs. Pairs of fermions are bosons, So they can Bose condense ⇒ pair superfluid
Superconductivity: why is pairing good?
S=0
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Quiz 1: is this a good picture of Cooper pairs?
Superconductivity: Ground state
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A: No! For most SC, pair size ξ >> interparticle spacing n-1/d
Superconductivity: Ground state
In this picture, ξ≈n-1/d
n-1/d
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Superconductivity: Ground state
ξ=vF/∆ >> n-1/d
Simple metal: ξ ~ 103 A n-1/d ~ 1A
St. Matthew’s Passion Oxford, UK
Remember that all pairs are phase coherent!
In reality,
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Superconductivity: Excited states
ξ=vF/∆>>n-1/d
“Bogoliubov quasiparticle”
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Quiz: a statement about SC
Grace à Henri Alloul
pendant
Cooper
Cooper pairs are not independent bosons!
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Is that all there is? Brian Pippard and “The Cat and the Cream” speech IBM 1961
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“I think I might remark that in low-temperature physics the disappearance of liquid helium, superconductivity, and magneto-resistance from the list of major unsolved problems has left this branch of research looking pretty sick from the point of view of any young innocent who thinks he's going to break new ground.”
Is that all there is? Brian Pippard and “The Cat and the Cream” speech IBM 1961
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Alex Müller and Georg Bednorz
Z. Physik, June 1986
High temperature superconductivity
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Alex Müller and Georg Bednorz
Z. Physik, June 1986
High temperature superconductivity
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Great expectations 1987
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BiSrCaCuO
Ag Wires
to make transmission lines
large magnets – maglev technology
Applications 2014
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p~0.1 p~0.2
T
doping
d-wave SC:
( )0 cos cos2k x yk k∆
∆ = −
Cuprates: status report
Tc is too high for electron-phonon “glue” to work! What holds pairs together?
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Discovery of LaO1−xFxFeAs Kamihara et al JACS 2008
Tc,max=26 K
H. Hosono
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• Monolayer FeSe??
• Monolayer FeSe??
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Comparison with cuprates Strong vs. weak coupling? Single vs. multibands? 2D vs. 3D?
Can we learn what the essential ingredients for high-Tc are from the comparison?
correlation
bands
I. Mazin, Nature 2010
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Iron-based superconductors
• Rotter et al. arXiv: PRL (2008)
• Ni et al Phys. Rev. B 2008 (single xtals)
• Kamihara et al JACS (2008) •Ren et al Chin. Phys. Lett. (2008)
Wang et al Sol. St. Comm. 2008
Tc=18K Tc=38K Tc=28K (55K for Sm)
Tc=8K
Hsu et al PNAS 2008
No arsenic !
Recent reviews: Paglione & Greene Nat Phys 2010; Johnston Adv. Phys. 2010
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Electronic structure calculations
LaFePO Lebegue 2007 (Tc=6K) LaFAs0 Cao et al2008 (Tc=26K)
Band structures for 2 materials nearly identical! Hole pocket near Γ, electron pocket near M
2D!
Kotliar et al, Cao et al: correlations can be important
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Multiorbital physics
DOS near Fermi due almost entirely to 5 Fe d-states Complications: calculations will be harder Novelty: surprising new aspects of multiorbital/ multiband physics
Total DOS
LaO
LaOFeAs
Fe 3d
As 4p
LaO
Total
Band structure Fermi surface
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Magnetic order in most (not all) parent compounds de la Cruz et al Nature 453, 899 (2008)
Stripe like order
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“Doping” the parent compound Various chemical substituents or pressure lead to SC “dome”
Alireza et al. (2008) Fang et al. (2009)
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Two phase transitions I) Structural Transition II) Magnetic Transition
FeTe
122/1111
Transitions are simultaneous for FeTe and parent 122’s, but structural transition is first in 1111’s and doped 122’s
DFT correctly reproduces (or even predicts) correct magnetic and structural ground states, but requires magnetism as a prior condition for distortion
Courtesy of M. Johannes & I. Mazin
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SC gap symmetry and structure
A1g B1g
∆(k) = “energy gap” or “order parameter” or “pair wave function”
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e-ph interaction is too weak
Singh & Du PRL 2008
Mazin et al, PRL 2008, see also Mu et al CPL (2008), Boeri et al. PRL 2008
Phonon spectrum, density of states
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superconductivity from e-e interactions
1111-pnictides Tc =26-55K LaFePO Tc=6K KFe2As2 Tc=3.6K
Pratt et al 09 Luetkens et al 08
nonmagnetic
Hint: magnetism is usually nearby:
no magnetism ⇒ low Tc
Pairing by exchange of spin, charge/orbital, nematic… fluctuations?
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Prehistory: Kohn-Luttinger 1965
Also: Landau and Pitaevskii Walter Kohn Quinn Luttinger
KL (1962): an electron gas with no phonons and only repulsive Coulomb interactions can be a superconductor!
A new paradigm: electrons avoid repulsive part of Coulomb interaction in space rather than time!
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Prehistory: Kohn-Luttinger 1965
Friedel: screened Coulomb interaction
3/2cos)( rrkrV F=
At finite distances, screened Coulomb interaction becomes attractive: finite-L pairing
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effective pairing interaction
bare interaction (repulsive)
screening terms (attractive in some L-channels)
Prehistory: Kohn-Luttinger 1965
Example: short range U>0 for rotationally invariant system (≈ 3He )
U
)5.2exp( 4LET Fc −≈
Best calculation in 1965: Brueckner Soda Anderson Morel PR 1960 : predicted L=2 for 3He ⇒ Tc ~ 10-17K But had they taken L=1 they would have gotten Tc ~ 1 mK!
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2 paradigms for superconductivity according to how pairs choose to avoid Coulomb interaction
“conventional” : isotropic s-wave pair wave fctn, interaction retarded in time
“unconventional”: anisotropic or sign-changing pair wave fctn,
Overall effective interaction attractive
Overall effective interaction repulsive
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Effective singlet interaction from spin fluctuations (Berk-Schrieffer 1966)
Spin fluctuation theories of pairing
Vs
χ0
χ0
χ0 U Screened Coulomb
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Effective interaction from spin fluctuations (Berk-Schrieffer 1966)
Spin fluctuation theories of pairing paradigm: d-wave in cuprates from antiferromagnetic spin fluctuations
d-wave takes advantage of peak in spin susceptibility at q=(π,π)!
( , )p pπ π+∆ = −∆
From DJ Scalapino, Phys Rep 1995
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remember at least some interactions attractive in order to form Cooper bound state
k-space: Vs(k-k’)∼V0+V2φd(k) φd(k’)+… r-space
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Similar argument from Mazin et al PRL 2008 for FeSC: electron-hole pocket pair scattering dominates
- nesting peaks interaction Vs at π,0 in 1-Fe zone. - interaction is constant over sheet since they are small. - therefore isotropic sign-changing s+/- state solves gap eqn
α β
also: Kuroki et al 2008 Seo et al. 2008 Chubukov et al 2008
χ(q)
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Comparing cuprates and FeSC
I. Mazin, Nature 2010
Different symmetry superconducting order may be driven by morphology of Fermi surface --- need not imply a different pairing mechanism
See Chubukov & Basov “Manifesto for higher Tc”, Nat. Phys ‘11 Scalapino, “A Common Thread” RMP ‘12
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Spin fluctutation pairing theories in Fe-pnictides
H=H0+Hint H0=5-band tight-binding model
most general 2-body Hamiltonian with intrasite interactions only!
Effective interaction between electrons in orbitals
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Realistic theories: realistic gaps display strong anisotropy/ nodes
Two pairing channels nearly degenerate a) Can different FeAs materials have different symmetries? b) More likely: s-wave symmetry, differing gap structures for different materials
“anisotropic extended-s”-wave
U=1.54 J=0.3
close: dx2-y2
(x=0.125 e-doped)
Kuroki et al ’08, ‘09 Ikeda et al ’09, ’10 ∆(k)
similar:
Graser, PJH et al 09,10
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What is the origin of the gap anisotropy [Maier, PJH et al PRB 09]? 1. orbital character on Fermi sheets 2. scattering between β1 and β2 sheets 3. intraband Coulomb repulsion
See also: Chubukov et al 2009, Thomale et al 2009 (band picture), Zhang et al 2009 Thomale et al 2010, Kemper et al 2010
Fermi surface w/ orbital character Gap
dxy
dyz
dxz + + +
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N(ω
)
ω
N(ω
)
ω N
(ω)
ω ∆(
φ)
φ
a) isotropic s+/- b) nodes c) deep minima
∆(φ)
φ α
β ∆(
φ)
φ
“sensitivity” to small changes in electronic structure
a) changes to small Fermi pockets ⇒ big changes in gap b) any nodes are accidental rather than symmetry-enforced in ext.-s states
Kemper et al 2010
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SC state: experimental “lack of universality” e.g., penetration depth experiments
Prozorov, 2011 Co-doped Ba122 Tc=25K
Hicks et al 2008 LaFePO Tc=6K
dirty clean
nodal SC so 2T dirty
T cleanλ
∆
( )N ω ω
20( )N N aω ω+
( )fd Nλ ω ωω
∂ ∆ − ∂ ∫
Hashimoto et al 2009 K-doped Ba122 Tc=40K
gapped SC /Teλ −∆∆ so
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PJH, Korshunov and Mazin Rep. Prog. Phys. 2011
KFe2As2: No electron pockets: d-wave? Thomale et al S-wave: Okazaki et al (ARPES)
KFe2Se2: No hole pockets: d-wave? Wang et al Graser, PJH et al S-wave? Mazin, Fang et al
nodes
Full gap
nodes?
anis.
Big picture: evolution of gap with doping
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1 recent project: LiFeAs
Fermi surface: Borisenko et al PRL 2010
stoichiometric Tc=18K superconductor with - nonpolar surfaces - nonmagnetic, no FS nesting
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Importance of correlations?
Yin et al 2011 Nat Mat, Ferber et al PRB 2012 LDA+DMFT: hole pockets shrink, electron pockets unaffected see also Lee et al, PRL 2012
kz=0
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ARPES results for SC gap function (Dresden group) γ
hole
poc
ket
β el
ectr
on p
ocke
t See also K. Umezawa et al 2012
Borisenko et al Symmetry 2012
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Experimental data (Disney version)
Borisenko et al 2012 Umezawa et al 2012
~4meV
0
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Results of 3D spin fluctuation calculations I Leading pairing eigenstate 10-orbital DFT-based or ARPES-fit bands
Wang et al PRB 2013
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Comparison theory/expt Y. Wang, A. Kreisel, V. B. Zabolotnyy, S. V. Borisenko, B. Büchner, T. A. Maier, PJH, D. J. Scalapino, PRB 2013
Conclusion: s+/- pairing from spin fluctuations despite lack of Fermi surface nesting
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Conclusions: 2 paradigms for superconductivity “conventional” : isotropic s-wave pair wave fctn, interaction retarded in time
“unconventional”: anisotropic or sign-changing pair wave fctn,
Overall effective interaction attractive
Overall effective interaction repulsive
Elements, A15s, MgB2, borocarbides, A-doped C60, ….
Cuprates, Fe-based, heavy fermions, organics, ….
Hirschfeld group: searching for Tc trends within these materials classes
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Conclusions/questions
• Symmetry of SC order in systems with repulsive interactions
often dictated by morphology of Fermi surface. FeSC appear to be A1g (“s-wave”), probably with overall sign change-- nodes in some systems, not in others. Tendency towards nodal behavior away from optimal doping. d-wave possible for extreme electron, hole doping.
• Are there several families of SC linked by common pairing mechanism—”common thread”?
• Higher Tc? Materials-specfic calculations needed.