quasiparticle interference in the pseudogap phase of cuprate ...franz/talks/aps.pdf ·...
TRANSCRIPT
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Quasiparticle interference in the pseudogap phaseof cuprate superconductors
M. FranzUniversity of British Columbia
March 25, 2004
In collaboration with: T. Pereg-Barnea (KITP & UBC)
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QP INTERFERENCE 1
Pseudogap: the key mystery
Pseudogap is a nonsuperconducting phase intermediate between the AFinsulator and d-wave superconductor.
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QP INTERFERENCE 1
Pseudogap: the key mystery
Pseudogap is a nonsuperconducting phase intermediate between the AFinsulator and d-wave superconductor.
T*
‘Pseudogap’
x
T
AFdSC
Phase diagram of cuprates. [For exp.review see Timusk and Statt, Rep. Prog.Phys. 62, 61 (1999).]
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QP INTERFERENCE 1
Pseudogap: the key mystery
Pseudogap is a nonsuperconducting phase intermediate between the AFinsulator and d-wave superconductor.
T*
‘Pseudogap’
x
T
AFdSC
Phase diagram of cuprates. [For exp.review see Timusk and Statt, Rep. Prog.Phys. 62, 61 (1999).]
Gap in the single-particle DOS above Tc
[tunneling data from Renner et al., PRL80, 149 (1998)]
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QP INTERFERENCE 2
Two schools of thought on the origin of pseudogap
Ascribe the pseudogap phenomenon to:
• Remnants of superconducting order
? Emery and Kivelson, Nature 374, 434 (1995).? Franz and Millis, PRB 58, 14572 (1998)? Balents, Fisher and Nayak, PRB 60, 1654 (1999)? Laughlin, cond-mat/0209269
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QP INTERFERENCE 2
Two schools of thought on the origin of pseudogap
Ascribe the pseudogap phenomenon to:
• Remnants of superconducting order
? Emery and Kivelson, Nature 374, 434 (1995).? Franz and Millis, PRB 58, 14572 (1998)? Balents, Fisher and Nayak, PRB 60, 1654 (1999)? Laughlin, cond-mat/0209269
• Static or fluctuating competing order in p-h channel (SDW, CDW, DDW, . . . )
? Zhang, Science 275, 1089 (1997)? Varma, PRL 83, 3538 (1999)? Vojta, Zhang, and Sachdev, PRB 62, 6721 (2000)? Chakravarty, Laughlin, Morr, and Nayak, PRB 63, 094503 (2001)
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QP INTERFERENCE 3
Who is right?
Experimental determination of the origin of the pseudogap phase has provenelusive. At present believable experiments can be found to support eitherscenario.
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QP INTERFERENCE 3
Who is right?
Experimental determination of the origin of the pseudogap phase has provenelusive. At present believable experiments can be found to support eitherscenario.
Need a decisive “smoking gun” experiment
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QP INTERFERENCE 3
Who is right?
Experimental determination of the origin of the pseudogap phase has provenelusive. At present believable experiments can be found to support eitherscenario.
Need a decisive “smoking gun” experiment
Our proposal: use the recently developed technique of Fourier Transformscanning tunneling spectroscopy (FT-STS).
• Pereg-Barnea and Franz, PRB 68, 180506(R) (2003)
• Pereg-Barnea and Franz, cond-mat/0401594
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QP INTERFERENCE 4
STM Basics[http://people.ccmr.cornell.edu/˜jcdavis/stm]
STM measures differentialconductance
n(r, ω) '(
dI(r, eV )dV
)eV =ω
,
with potentially atomic resolution.
To reasonable approximationn(r, ω) is proportional to the LocalDensity of States (LDOS) of thesample at point r directly underthe STM tip.
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QP INTERFERENCE 5
Tunneling spectroscopy in cuprates
Topography of BiSCCO:
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QP INTERFERENCE 5
Tunneling spectroscopy in cuprates
Topography of BiSCCO:
Spectroscopy of Ni impurities:
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QP INTERFERENCE 5
Tunneling spectroscopy in cuprates
Topography of BiSCCO:
Spectroscopy of Ni impurities:
LDOS inhomogeneity:
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QP INTERFERENCE 6
FT-STS: “Fourier Transform Scanning TunnelingSpectroscopy”
Periodic patterns in LDOS at fixed energyare sometimes observed:
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QP INTERFERENCE 6
FT-STS: “Fourier Transform Scanning TunnelingSpectroscopy”
Periodic patterns in LDOS at fixed energyare sometimes observed:
−→FT
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QP INTERFERENCE 7
FT-STS peaks disperse as a function of applied bias
• K. McElroy et al., Nature 422, 592 (2003).
• J.E. Hoffman et al., Science 297, 1148 (2002).
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QP INTERFERENCE 8
The “Octet Model”
The octet model asserts that the peaks in FT-STS are due to quasiparticlescattering between the regions of high DOS.
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QP INTERFERENCE 8
The “Octet Model”
The octet model asserts that the peaks in FT-STS are due to quasiparticlescattering between the regions of high DOS.
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QP INTERFERENCE 9
But, all is different!
The octet model, although simple and appealing, is not quite right.
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QP INTERFERENCE 9
But, all is different!
The octet model, although simple and appealing, is not quite right.
• DOS itself cannot explain the peaks in the FT-STS data
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QP INTERFERENCE 9
But, all is different!
The octet model, although simple and appealing, is not quite right.
• DOS itself cannot explain the peaks in the FT-STS data
• The interference patterns depend crucially on the electron wavefunctions, i.e.they are sensitive to BCS coherence factors.
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QP INTERFERENCE 9
But, all is different!
The octet model, although simple and appealing, is not quite right.
• DOS itself cannot explain the peaks in the FT-STS data
• The interference patterns depend crucially on the electron wavefunctions, i.e.they are sensitive to BCS coherence factors.
• Systems with identical DOS but different type of electron order will exhibitqualitatively different FT-STS patterns.
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QP INTERFERENCE 9
But, all is different!
The octet model, although simple and appealing, is not quite right.
• DOS itself cannot explain the peaks in the FT-STS data
• The interference patterns depend crucially on the electron wavefunctions, i.e.they are sensitive to BCS coherence factors.
• Systems with identical DOS but different type of electron order will exhibitqualitatively different FT-STS patterns.
−→ IDENTIFICATION OF PSEUDOGAP ORDER
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QP INTERFERENCE 10
Theory of FT-STS
STM measures the quantity [Wang and Lee, PRB 67, 020511(2003)]
n(r, ω) = −1πIm[G11(r, r, ω) + G22(r, r,−ω)],
where G(r, r′, ω) is a full electron propagator. In the presence of disorderpotential V we can write
G(k,k′, ω) = G0(k, ω)δk,k′ + G0(k, ω)Tkk′(ω)G0(k′, ω),
with G0(k, ω) = [ω − σ3εk − σ1∆k]−1 the bare Green’s function and Tkk′(ω) theT-matrix that satisfies the Lippman-Schwinger equation
Tkk′(ω) = Vkk′ +∑q
VkqG0(q, ω)Tqk′(ω).
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QP INTERFERENCE 11
FT-STS measures n(q, ω), a spatial Fourier transform of n(r, ω).
It is useful to consider a limit of weak disorder (i.e. Born limit) in which one canexpress the non-uniform part δn(q, ω) [Capriotti et al. PRB 68, 014508 (2003)]
δn(q, ω) = −1π|Vq|Im [Λ11(q, ω) + Λ22(q,−ω)] ,
where, for scattering in the charge channel,
Λ(q, ω) =∑k
G0(k, ω)σ3G0(k− q, ω).
Λ(q, ω) is a response function of the clean system.
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QP INTERFERENCE 11
FT-STS measures n(q, ω), a spatial Fourier transform of n(r, ω).
It is useful to consider a limit of weak disorder (i.e. Born limit) in which one canexpress the non-uniform part δn(q, ω) [Capriotti et al. PRB 68, 014508 (2003)]
δn(q, ω) = −1π|Vq|Im [Λ11(q, ω) + Λ22(q,−ω)] ,
where, for scattering in the charge channel,
Λ(q, ω) =∑k
G0(k, ω)σ3G0(k− q, ω).
Λ(q, ω) is a response function of the clean system.
For weak disorder FT-STS provides information aboutthe underlying electron order
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QP INTERFERENCE 12
Nodal approximation: importance of coherence factors
One finds
Λ(q, iω) =1L2
∑k
(iω + ε+)(iω + ε−)−∆+∆−
(ω2 + E2+)(ω2 + E2
−),
with ε± = εk±q/2, ∆± = ∆k±q/2
and E± =√
ε2± + ∆2±. Linearize
near the nodes to obtain
v vvv
v
∆
∆
∆
y
x
vv
F F
FF v k k 12
k
k
−−
∆
+
+
Q’
Q
Λlin =1
vFv∆
∫d2k
(2π)2−ω2 + (k2
1 − k22)− (q2
1 − q22)
[ω2 + (k + q)2][ω2 + (k− q)2].
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QP INTERFERENCE 13
For intranodal scattering we thus get
Re Im Re Im
a) non−magnetic b) magnetic
Magnetic and non-magnetic scattering differ only in the coherence factors, DOSis exactly the same. Yet, the FT-STS patterns are qualitatively different!.
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QP INTERFERENCE 14
The full picture
One can analyze various intra-node processes similarly in thelinearized approximation to obtainthe full picture.
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QP INTERFERENCE 14
The full picture
One can analyze various intra-node processes similarly in thelinearized approximation to obtainthe full picture.
Alternately, one can evaluateΛ(q, ω) exactly using numericaltechniques:
5’
4’
1
3
5
6
2
4
π
π
−π−π 0
0
7
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QP INTERFERENCE 15
The pseudogap state
• We have established that FT-STS patterns depend critically on thequasiparticle coherence factors.
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QP INTERFERENCE 15
The pseudogap state
• We have established that FT-STS patterns depend critically on thequasiparticle coherence factors.
• If the pseudogap is dominated by SC fluctuations then the FT-STS patternsabove Tc should be qualitatively similar to those below Tc.
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QP INTERFERENCE 15
The pseudogap state
• We have established that FT-STS patterns depend critically on thequasiparticle coherence factors.
• If the pseudogap is dominated by SC fluctuations then the FT-STS patternsabove Tc should be qualitatively similar to those below Tc.
• If the pseudogap is primarily due to some p-h order then we expect afundamentally different patterns above Tc.
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QP INTERFERENCE 15
The pseudogap state
• We have established that FT-STS patterns depend critically on thequasiparticle coherence factors.
• If the pseudogap is dominated by SC fluctuations then the FT-STS patternsabove Tc should be qualitatively similar to those below Tc.
• If the pseudogap is primarily due to some p-h order then we expect afundamentally different patterns above Tc.
• In the following we illustrate this general thesis on the comparison betweenQED3 theory of phase disordered dSC and d-density wave (DDW) scenariofor pseudogap.
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QP INTERFERENCE 16
QED3
[Franz and Tesanovic, PRL 87, 257003 (2001)]
This theory describes fermionicexcitations in a phase-disorderedd-wave superconductor. The electronpropagator reads
G0(k, iω) = λ−η iω + εkσ3
[ω2 + ε2k + ∆2k]1−η/2
,
where λ is a high energy cutoffand η is the anomalous dimensionexponent which encodes the physicsof phase fluctuations. η is a smallpositive number, whose precise valueis still under debate.
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QP INTERFERENCE 17
DDW[Chakravarty, Laughlin, Morr, and Nayak PRB 63, 094503 (2001)]
Also known as the “flux phase”, thistheory describes the pseudogap asa mean-field state with staggeredpattern of currents, breaking thetranslational symmetry of the squarelattice. We have
G0(k, iω) = [(iω−ε′k)−ε′′kσ3−Dkσ2]−1,
with ε′k = 12(εk + εk+Q), ε′′k =
12(εk − εk+Q), and the DDW gap Dk =12D0(cos kx − cos ky).At half filling (µ = 0) and with nndispersion (t′ = 0) DDW has thesame DOS as the dSC.
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QP INTERFERENCE 18
Reality check: FT-STS at 100K in BiSCCOVershinin et al., Science Express, 12 Feb. 2004
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QP INTERFERENCE 18
Reality check: FT-STS at 100K in BiSCCOVershinin et al., Science Express, 12 Feb. 2004
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QP INTERFERENCE 19
FT-STS in strongly underdoped BiSCCO at 100mKMcElroy et al., unpublished
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QP INTERFERENCE 20
Origin of the static pattern
Several theoretical proposals:
• Density wave of Cooper pairs [ H.-D. Chen, O. Vafek, A. Yazdani, S.-C. Zhang,cond-mat/0402323]
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QP INTERFERENCE 20
Origin of the static pattern
Several theoretical proposals:
• Density wave of Cooper pairs [ H.-D. Chen, O. Vafek, A. Yazdani, S.-C. Zhang,cond-mat/0402323]
• Wigner crystal of doped holes [H.C. Fu, J.C. Davis, D.-H. Lee, cond-mat/0403001]
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QP INTERFERENCE 20
Origin of the static pattern
Several theoretical proposals:
• Density wave of Cooper pairs [ H.-D. Chen, O. Vafek, A. Yazdani, S.-C. Zhang,cond-mat/0402323]
• Wigner crystal of doped holes [H.C. Fu, J.C. Davis, D.-H. Lee, cond-mat/0403001]
Renner (1998)
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QP INTERFERENCE 20
Origin of the static pattern
Several theoretical proposals:
• Density wave of Cooper pairs [ H.-D. Chen, O. Vafek, A. Yazdani, S.-C. Zhang,cond-mat/0402323]
• Wigner crystal of doped holes [H.C. Fu, J.C. Davis, D.-H. Lee, cond-mat/0403001]
Renner (1998) Vershinin (2004)
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QP INTERFERENCE 20
Origin of the static pattern
Several theoretical proposals:
• Density wave of Cooper pairs [ H.-D. Chen, O. Vafek, A. Yazdani, S.-C. Zhang,cond-mat/0402323]
• Wigner crystal of doped holes [H.C. Fu, J.C. Davis, D.-H. Lee, cond-mat/0403001]
Renner (1998) Vershinin (2004) McElroy (2004)
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QP INTERFERENCE 21
Conclusions
• By analyzing the quasiparticle interference patterns in the nodalapproximation we gained some crucial insights into FT-STS in thesuperconducting state.
• FT-STS is sensitive to both the quasiparticle DOS and the coherence factors.
• This sensitivity can be used to determine the nature of the condensateresponsible for the pseudogap phenomenon in the cuprates.
• Several experimental groups are now actively pursuing related projects.
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