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Using Disorder to Detect Order:Hysteresis and Noise of Nematic Stripe Domains
in High Temperature Superconductors
Erica CarlsonKarin Dahmen
Eduardo FradkinSteven Kivelson
Dale Van HarlingenMichael Weissman
Christos Panagopoulos
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Conventional Superconductivity
• BCS Theory
• Instability of the metallic state
John Bardeen Leon Cooper Bob Schrieffer
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Simple Metals: The Fermi Gas
• Free Electrons E ~ k2
• Pauli exclusion principle
• Fill to Fermi level
• KE most important
• Pauli exclusion principle
• fill to Fermi level
• Fermi sea
• Stable except for …
Fermi Surface
Adiabatically turn on temperature, most states unaffectedVery dilute gas of excitations: quasiparticles
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Simple Metals: The Fermi Liquid
• Pauli exclusion principle
• Fill to Fermi level
Fermi Surface
Adiabatically turn on temperature, most states unaffectedVery dilute gas of excitations: quasiparticles
Fermi Gas + Interactions Fermi Liquid
Quasiparticles = Dressed ElectronsKinetic EnergyDominant
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Cooper Pairing
• Fermi Liquid Unstable to Pairing
• Pair electrons near Fermi Surface
• Phonon mediated
Retardation is Essentialto overcome
Coulomb repulsion
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InstabilityOf A Tranquil Fermi Sea—
Broken Symmetry
BCS Haiku:
EC, Orgad, Emery, Kivelson, Concepts in High Temperature Superconductivity, 2004.
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A Ceramic Superconductor?
• Brittle
• Ceramic
• Not Shiny
• Not metallic
• Why do they conduct at all?
http://www.superconductivecomp.com/
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High TemperatureSuperconductors
YBCO7
LSCO
HgCuO
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High Temperature Superconductors
Layered structure quasi-2D system
Copper Oxygen Planes
Other Layers
Layered structure quasi-2D system
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High Temperature SuperconductorsDope with holes
Superconducts at certaindopings
Oxygen Copper
T
x
AF SC
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Mysteries of High TemperatureSuperconductivity
• Ceramic! (Brittle)
• “Non-Fermi liquid” normal state
• Magnetism nearby (antiferromagnetism)
• Make your own (robust)http://www.ornl.gov/reports/m/ornlm3063r1/pt7.html
• Pseudogap
• Phase ordering transition
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Two Energy Scales in aSuperconductor
Two component order parameter
Amplitude
PairingGap
Phase
Phase CoherenceSuperfluid Density
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BCS is a mean field theory in whichpairing precipitates order
1.4X1033915MgB2
1022026K3C60
5X1022617.4BaKBiO
1020.90.8UBe13
2X10417.818.7Nb3Sn
6X1057.27.9Pb
Material Tpair[K] Tc[K] Tθ[K]
Phase FluctuationsImportant in Cuprates
Emery, Kivelson, Nature, 374, 434 (1995)EC, Kivelson, Emery, Manousakis, PRL 83, 612 (1999)
4238Y-123 (ud)
62104Bi-2212 (od)
14090116Y-123 (op)
14055Y-123 (od)
6095220Bi-2212 (op)
83275Bi-2212 (ud)
2526Tl-2201 (od)
16080Tl-2201 (od)
91122Tl-2201 (op)
130133435Hg-1223 (op)
130108290Hg-1212 (op)
18096192Hg-1201 (op)
10020LSCO (od)
543858LSCO (op)
473075LSCO (ud)
Material Tpair[K] Tc[K] Tθ[K]
EC, Emery, Kivelson, Orgad, in The Physics of Superconductors (2004)
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Tc and the Energy Scales
BCS: Τθ ~ 1000 Tc
HTSC: Τθ ~ Tc underdoped
T
AF
x
Very different from BCS.
TθTpair
Superconductivity
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Doped Antiferromagnets
Hole Motion is Frustrated
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Doped Antiferromagnets
• Compromise # 1: Phase Separation
• Relieves some KE frustration
Pure AF
HoleRich
Like Salt CrystallizingFrom Salt Water,The Precipitate (AF) is Pure
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Coulomb Frustrated Phase Separation• Long range homogeneity
• Short range phase separation
• Compromise # 2: mesoscale structure
• Patches interleave
• quasi-1D structure – stripes ?
HoleRich
HolePoor
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Ferrofluidconfined betweentwo glass platesPeriod ~ 1cm
Block copolymersPeriod ~ 4X10-8 m
Ferromagneticgarnet filmPeriod ~ 10-5 m
Ferromagneticgarnet filmFaraday effectPeriod ~ 10-5 m
Competition often produces stripes
Holes want to phase separate (run away), but Coulombrepulsion prevents it. Competition produces local inhomogeneity.
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canal
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What’s so special about 1D?
Liquid-like electrons here have new behavior due to 1DTwo types of solitons:
Charge SolitonsSpin Solitons
The electron is no longer a stable many-body excitationPair spins directly, no Coulomb repulsion = Pairs at high temperature!
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Stripe Issues
Why do we care?Novel electronic phases: liquid crystalsMay shed light on High Tc (route to pairing mechanism)
Issues about stripes in HTSC:Are they there?Are they ubiquitous?What constitutes evidence of them?
Hard to detect!Disorder (chemical dopants)
Rounds transitionsDestroys order!
How do we define and detect “order” in the presence of severe disorder effects?
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Stripes in what probes?
Neutron Scattering(bulk probe)LaSrCuO, LaCuO, YBaCuO (not BiSrCaCuO)
Scanning Tunneling Microscopy(surface probe)BiSrCaCuO
Angle-Resolved Photoemission Spectroscopy(surface probe)BiSrCaCuO, YBaCuO
Hayden et al., Nature (2004)
YBCO6.6
Howald et al., PRB (2003)
BSCCO
Data not clear cut. Different probes for different materials.We propose new ways to look for stripes.
Zhou et al., Science (1999)
LNSCO
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Finding Electronic Stripes: Ising Symmetry
Stripes lock to a crystal direction
OR
Cu-O planeHorizontal
orVertical
“Ising Model”
σ = 1 for horizontal stripe patch
σ = -1 for vertical stripe patch
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Finding Electronic Stripes: Disorder is a Random Field
Disorder favors one direction locally
RANDOM FIELD ISING MODEL
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Random Field Ising Model in 3D
Pencil Fire Popcorn
Snap Crackle Pop
www.simscience.org
Snap: One large, system-size eventCrackle: Many events at random times, of random sizes.Pop: Many small, same-sized events at random times
3D RFIM has phase transition from “Snap” to “Pop” with “Crackle” at criticality.
Increasing Disorder
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Many Things Crackle
Paper Earthquakes Rice Crispies Magnets
Crackling: Random times, random sizes.
www.simscience.org
Mag
nitu
de
Day
Earthquakes in 1995Large critical region in 3D RFIM(Perkovic, Dahmen, and Sethna, PRL 1995)
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Layered RFIM
Δ2.16
Zachar and Zaliznyak, PRL 2003
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Mapping to Random Resistor Network
Stripe Patches
Resistor Network
Easy conduction
Hard conduction
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Noise in Resistance
Experiment
Theory
• Local patch anisotropy: 2• Size: 10X10 patches• Disorder R=2.8 J • T = .5 J•Dimension = 2
•Stripe correlation length ~ 40nm (from neutron data)
YBCO nanowire (underdoped)T=100K 500nmX250nm
Bonetti, Caplan, Van Harlingen,Weissman.,Phys. Rev. Lett. 2004
time
Rxx
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Macroscopic Resistance Anisotropy
Resistance Anisotropy and RFIM Magnetization exhibit hysteresis
(Rxx
-Ryy
)/(R
xx+
Ryy
)
H
Orientational Order
Resistance Anisotropy≈ Orientational Order
Orientational Order
(Rxx-Ryy)/(Rxx+Ryy)
“Magnetization” = orientational order
LXL = 100X100
T=0; R = 3 J; Dimension = 2
Rlarge/Rsmall = 2
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Macroscopic Resistance Anisotropy
Resistance Anisotropy and RFIM Magnetization exhibit hysteresis
“Magnetization” = orientational order
H
Orientational Order
(Rxx-Ryy)/(Rxx+Ryy)
LXL = 8X8
T=0; R = 3 J;
Rlarge/Rsmall = 2
Smaller system -- more fluctuations.
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Hysteresis And Subloops
Theory
• Return Point Memory (subloops close)
• Incongruent Subloops→Interactions important
•Disorder R=3J, T=0, Size = 100X100
H
“M”
Orientational Order
Orienting Field
Orie
ntat
iona
l Ord
er
Orienting Field
Resistance Anisotropy
Superfluid Anisotropy
Ratio of IC peaks in neutron scattering, STM
Magnetic Field H2
Uniaxial Strain
High Current
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New STM mode: Scanning Noise Spectroscopy
Map of crackling clusters
Each cluster has characteristic dynamics.Small clusters flip often, and large clusters flip much less often.
Position-dependent power spectrum can map out the cluster pattern.
Sethna, Dahmen, Perkovic, cond-mat/0406320
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Conclusions
Transport: Switching noise in small systems in Rxx Orientational Order measured by Rxx-Ryy
Hysteresis, Return Point Memory at low T Subloops Incongruent ⇒ Interactions important
Stripes + Host crystal + Disorder = Random Field Ising Model
Scanning Noise Spectroscopy:Power spectrum of local noise can map out the cluster pattern
High Temperature Superconductors: Need a fundamentally different mechanism from BCS
Stripes: 1D System has spin-charge separationPair spins directly to achieve high pairing scale despite large Coulomb repulsion
Disorder makes stripes hard to detect -- need new probes. Noise, Hysteresis
Resistance Anisotropy
Superfluid Anisotropy
Ratio of IC peaks in neutron scattering, STM
Magnetic Field H2
Uniaxial Strain
High Current
Hysteresis:
vs.
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What’s so special about 1D?
solitons
Disturbances in 3D: dissipate as ~ 1/R2
Disturbances in 2D: dissipate as ~ 1/R
Disturbances in 1D: “dissipate” as ~ 1
Like the intensityof light
Like a stone thrownin a pond
Like a wavein a canal
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Checkerboards and Plaids?
ChargePeaks
AntiphaseDomain Walls in
Antiferromagnetism
Spin Peaks in Wrong Direction!
Hoffman et al., Science (2002)Vershinin et al., Science (2004)
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MagneticReciprocalLatticeVectors
Neutron Scattering
!
!
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Intensities
Neutron Scattering
!
!
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Neutron Scattering in Cuprates
!
!
Charge Peaks related by X2
Data is usually twinned due to crystal twinning.
LaSrCuO, LaCuO
YBaCuO
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Hysteresis Subloops
Experiment
Theory
• Return Point Memory (subloops close)
• Incongruent Subloops→Interactions important
•Disorder R=2.8J, T=0, Size = 100X100
“M”
H
LSCO, X=.10ZFC, ZFWT=45KPanagopoulos et al.,cond-mat/0412570
H
“M”
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Tpair = Δ/2 (Δ=single particle gap)
(ns= superfluid density)
3D:
2D:
Definitions
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