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2D MIT: Incoherent Fermi Liquid to MottAnderson Glass

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Maria Carolina de Oliveira Aguiar (FSU, Brazil) Andrei Pastor (FSU) Denis Dalidovich (FSU) ... history dependence, slow relaxation, aging. Metallic glass. phase: ... – PowerPoint PPT presentation

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Title: 2D MIT: Incoherent Fermi Liquid to MottAnderson Glass


1
2D MIT Incoherent Fermi Liquid to Mott-Anderson
Glass
Vladimir Dobrosavljevic Department of Physics
and National High Magnetic Field
Laboratory Florida State University
Collaborators Darko Tanaskovic (FSU) Maria
Carolina de Oliveira Aguiar (FSU, Brazil) Andrei
Pastor (FSU) Denis Dalidovich (FSU) Branislav
Nikolic (Georgetown? Delaware) Eduardo Miranda
(Brazil) Gabi Kotliar (Rutgers) Elihu Abrahams
(Rutgers)
Funding NHMFL/FSU Alfred P. Sloan Foundation NSF
grant DMR-9974311 DMR-0234215
2
Contents
  • Experimental puzzles strong correlation physics?
  • Physical picture Wigner crystal melting as Mott
    transition
  • 2D MIT as a transition to a Mott-Anderson glass
  • Extended DMFT results
  • Correlation-enhanced disorder screening
  • Mott-Anderson transition Mott physics survives
    disorder
  • Electron glass behavior in the vicinity of the
    (disordered) MIT

3
(Metal-Oxide-Semiconductor-Field-Effect-T
ransistor)
nc 1011 cm-2
FET approach for fullerine superconductors,(Scho
nBattlogg) ?!!!!!
4
2D MIT Distinct Experimental Features
Drastic change of behavior near n nc 1011
cm-2 NOTE behavior seen up to T 0.25 TF
broad density range
Mass enhanced But not the g-factor Large
resistivity drop!
TF 10K
Metal destroyed by small parallel field near
transition Low density rs 10 Close to Wigner
crystal?
5
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6
Physical picture Wigner crystal melting as Mott
transition (Analogy with He3 Spivak 2001
Dolgopolov 2002)
  • Wigner crystal Mott insulator (magnet)
  • Melting Vacancy-Interstitial
  • pair formation
  • (Phillips, Ceperley 2001)
  • Model disordered Hubbard model

Use DMFT !!
MIT Mott transition disorder
7
Insulator
8
Conventional critical points spontaneous
symmetry breaking
9
Applications Mott transition, heavy fermions
10
(VD, Pastor, Nikolic, 2002)
11
Global Phase Diagram
(EF/U) (W/U)-1
Physical trajectory EF n U n1/2 W const.

12
Disordered Metallic Phase Correlation-Induced
Screening of Randomness (Zimanyi, Abrahams 1991
Tanaskovic, DeOliviera-Aguilar, VD, Kotliar,
Abrahams 2002)
Choose disorder W U, reduce EF (ignore
localization CPA)
  • Resistivity drop at low T
  • temperature-dependent screening?
  • Altshuler Maslov,
  • Das Sarma Hwang,
  • Dolgopolov Gold,
  • Herbut, Aleiner et al.
  • Hartree-Fock theory
  • weak T-dependence, only factor 2 drop
  • (solve DMFT in H-F, similar as others)

Puzzle Hartree-Fock (RPA) screening
compressibility reduced when m large??!!
13
Full DMFT theory
  • Strong T-dependence,
  • factor gt 10 drop!!!
  • (solve full DMFT
  • using IPT or slave bosons)
  • Enhanced screening at low T
  • due to correlations, even as
  • compressibility is small
  • (approach to Mott transition)
  • Strong inelastic scattering
  • at higher T

Experiment
Theory
Scattering rate 1/?
T/TF
  • Incoherent Fermi liquid (low T TF/m
    distribution of local coherence scales)
  • (microscopic origin of decoherence?)

14
DMFT Picture of the Anderson-Mott
Transition (DMFT localization V.D. G.
Kotliar, PRL 1997 in progress)
Mott-like order parameter Typical quasiparticle
weight Z 1/m
Fraction of electrons turn into local moments
15
Glassy behavior of electrons near MIT (Pastor,
Tanaskovic, Dalidovich, V.D. 1999-2002)
16
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17
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18
Extended DMFT of the Electron Glass (Inter-site
interactions Vij)
Glassy behavior deep in the insulator
(EfrosShklovskii, Pollak) Question when does
the glass melt?
Mobile electrons quantum
fluctuations MELT glass at T0
E-DMFT replica symmetry breaking (Parisi
scheme)
Diverges at Anderson-like transition Vanishes at
Mott transition
19
Glassy behavior emerges before Mott-Anderson
transition history
dependence, slow relaxation, aging
  • Metallic glass
  • phase
  • replocon modes
  • Non-Fermi liquid
  • transport
  • Hierarchical,
  • correlated dynamics
  • (scale invariant)

20
Conclusions
  • New physical picture of 2D MIT
  • Wigner crystal melting disorder
    Mott-Anderson transition
  • Extended DMFT order-parameter theory for
    Mott-Anderson transition
  • Non-perturbative approach to strong correlations
    in disordered systems
  • Metallic phase enhanced disorder screening (low
    T) inelastic scattering (high T)
  • Microscopic origin of small energy (field) scales
    near MIT
  • Predicts glassy behaviors of electrons close to
    MIT (as seen by exp. of D. Popovic)
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