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Vortex Nernst effect

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Vortex Nernst effect. Enhanced Diamagnetism. Fragile London rigidity T Tc. Low-temp. Quantum Vortex Liquid ... by spontaneous vortex creation (not gap closing) ... – PowerPoint PPT presentation

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Title: Vortex Nernst effect

1
Vorticity and the Phase Diagram of Cuprates Lu
Li, J. G. Checkelsky, N.P.O. Princeton Univ. Yayu
Wang, Princeton U., U.C. Berkeley M. J. Naughton,
Boston College S. Ono, S. Komiya, Yoichi Ando,
CRI, Elec. Power Inst., Tokyo S. Uchida, Univ.
Tokyo Genda Gu, Brookhaven National Lab

Introduction
Vortex Nernst effect
Enhanced Diamagnetism
Fragile London rigidity TgtTc
Low-temp. Quantum Vortex Liquid State

Hong Kong Univ, Dec. 2006
2
Thanks, Patrick!

1. (1975-80)
Sliding charge density waves (LRA)
Pinning and Depinning, FLR length
2. (1980-84)
Gang of four, weak localization,
Magnetoresistance, dephasing
3. (1987-2000)
RVB and Gauge theories of cuprate pairing (NL,
WL)
4. (1995-98)
Thermal conductivity of Dirac quasiparticles
Thermal Hall effect and qp-vortex scattering
5. (2000 -- )
Strong fluctuations in pseudogap state

3
Phase diagram of cuprates
Mott insulator
s 1/2
hole
T
pseudogap
T
Tc
Fermi liquid
0
0.25
0.05
doping x
(fraction of sites with holes)
Spontaneous vorticity destroys superfluidity
4
Josephson Effect, phase-slip and Nernst signal
Passage of a vortex Phase diff. f jumps by 2p

Josephson Eq.
Phase difference
5
Wang et al. PRB 2001
Nernst effect experiment
Bi 2212 (UD)
Tc
Nernst signal persists high above Tc
(Nernst signal)
6
Giant Nernst signal in cuprates
Wang, Li, NPO PRB 2006
underdoped
optimal
overdoped
7
Vortex-Nernst signal in Bi 2201
Wang, Li, Ong PRB 2006
8
Nernst region

Condensate amplitude persists to Tonset gt Tc
Nernst signal confined to SC dome
Vorticity defines Nernst region

9
Kosterlitz Thouless transition in 2D
superconductor
vortex density
antivortex
vortex
Unbinding of vortex-antivortex
DF U - TS
Free energy gain
10
Mean-field phase diagram
Cuprate phase diagram
2H-NbSe2
4 T
100 T
Hc2
H
H
vortex liquid
Hm
Tc
vortex solid
Vortex unbinding in H 0
100 K
7 K
Meissner state
11
Implications of Giant Nernst signal

Vorticity persists high above Tc
Confined to SC dome
Loss of long-range phase coherence at Tc
by spontaneous vortex creation (not gap closing)
4. Pseudogap intimately related to vortex liquid
state

Thermodynamic evidence?
12
Diamagnetic currents in vortex liquid
Supercurrents follow contours of condensate
13
Torque magnetometry
Mike Naughton (Boston College)
Torque on moment ? m B
crystal
Deflection of cantilever ? k ?
14
Underdoped Bi 2212
Wang et al. PRL 2005
Tc
15
Magnetization curves in underdoped Bi 2212
Wang et al. PRL 2005
Wang et al. Cond-mat/05
Tc
Separatrix Ts
16
At high T, M scales with Nernst signal eN
17
Lu Li et al., unpubl.
UN Bi 2212
18
Fragile London rigidity above Tc
Lu Li et al. Europhys Lett 2005
Above Tc, M/H is singular M -H1/d (c is
divergent)
19
Non-analytic magnetization above Tc
M H1/d
Fractional-exponent region
20

In hole-doped cuprates
1. Large region in phase diagram above Tc dome
with enhanced Nernst signal
Associated with vortex excitations (not Gaussian)
Confirmed by torque magnetometry
Transition at Tc is 3D version of KT transition
(loss of phase coherence)
5. Upper critical field behavior confirms
conclusion

21
The phase diagram in x-H plane at low T
Nernst region
22
Magnetization in lightly doped La2-xSrxCuO4
Lu Li et al., unpubl.
Evidence for robust diagmagnetism for x lt xc
23
Lu Li et al., unpubl.
Doping x
Diamagnetism coexists with growing spin population
24
Vortex solid-to-liquid transition for x lt xc
Lu Li et al., unpubl.
Debye Waller dependence Hm(T) H0 exp(-T/T0)
25
Lu Li et al., unpubl.
Low temp Phase Diagram
Critical Point
26