single parameter scaling of 1d systems with long -range correlated disorder
DESCRIPTION
Single parameter scaling of 1d systems with long -range correlated disorder. Greg Petersen and Nancy Sandler. Why correlated disorder?. Long standing question: role of correlations in Anderson localization. Potentially accessible in meso and nanomaterials : - PowerPoint PPT PresentationTRANSCRIPT
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G R E G P E T E R S E N A N D N A N C Y S A N D L E R
SINGLE PARAMETER SCALING OF 1D SYSTEMS WITH LONG-RANGE CORRELATED
DISORDER
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WHY CORRELATED DISORDER?
Long standing question: role of correlations in Anderson localization.
Potentially accessible in meso and nanomaterials: disorder is or can be ‘correlated’.
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GRAPHENE: RIPPLED AND STRAINED
Bao et al. Nature Nanotech. 2009Lau et al. Mat. Today 2012
http://www.materials.manchester.ac.uk/E.E. Zumalt, Univ. of Texas at Austin
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MULTIFERROICS: MAGNETIC TWEED
http://www.msm.cam.ac.uk/dmg/Research/Index.html
N. Mathur Cambridge
Theory: Porta et al PRB 2007
Correlation length of disorder
Scaling exponent
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BEC IN OPTICAL LATTICES
Billy et al. Nature 2008http://www.lcf.institutoptique.fr/Groupes-de-recherche/Optique-atomique/Experiences/Transport-Quantique
Theory: Sanchez-Palencia et al. PRL 2007.
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DISORDER CORRELATIONS
Quasi-periodic real space order
Random disorder amplitudes chosen from a discrete set of values.
Specific long range correlations (spectral function)
Mobility edge:
Anderson transition
Discrete number of extended
states
Some (not complete!) references:Johnston and Kramer Z. Phys. B 1986 Dunlap, Wu and Phillips, PRL 1990De Moura and Lyra, PRL 1998Jitomirskaya, Ann. Math 1999Izrailev and Krokhin, PRL 1999Dominguez-Adame et al, PRL 2003Shima et al PRB 2004Kaya, EPJ B 2007Avila and Damanik, Invent. Math 2008
Reviews:Evers and Mirlin, Rev. Mod. Phys. 2008Izrailev, Krokhin and Makarov, Phys. Reps. 2012
This work: scale free power law correlated potential (more in Greg’s talk).
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OUTLINE
Scaling of conductance
Localization length
Participation Ratio
G. Petersen and NS submitted.
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HOW DOES A POWER LAW LONG-RANGE DISORDER LOOK LIKE?
Smoothening effect as correlations increase
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MODEL AND GENERATION OF POTENTIAL
Fast Fourier Transform
Tight binding Hamiltonian:
Correlation function:
Spectral function:
(Discrete Fourier transform)
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CONDUCTANCE SCALING I: METHOD
Conductance from transmission function T:
Green’s function*:
Self-energy: Hybridization:
*Recursive Green’s Function method
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CONDUCTANCE SCALING II: BETA FUNCTION?
COLLAPSE!
IS THIS SINGLE PARAMETER SCALING?
NEGATIVE!
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CONDUCTANCE SCALING III: SECOND MOMENT
Single Parameter Scaling:
ESPS
Shapiro, Phil. Mag. 1987Heinrichs, J.Phys.Cond Mat. 2004 (short range)
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CONDUCTANCE SCALING IV: ESPS
WEAK DISORDER
CORRELATIONS
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CONDUCTANCE SCALING V: RESCALING OF DISORDER STRENGTH
Derrida and Gardner J. Phys. France 1984Russ et al Phil. Mag. 1998Russ, PRB 2002
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LOCALIZATION LENGTH I
w/t =1
Lyapunov exponent obtained from Transfer Matrix:
EC
Russ et al Physica A 1999Croy et al EPL 2011
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LOCALIZATION LENGTH II: EC
Enhanced localization
Enhanced localization length
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LOCALIZATION LENGTH III: CRITICAL EXPONENT
w/t=1
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PARTICIPATION RATIO I
E/t = 0.1 E/t = 1.7IS THERE ANY DIFFERENCE?
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PARTICIPATION RATIO II: FRACTAL EXPONENT
E/t = 0.1 E/t = 1.7
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Classical systems: Harris criterion (‘73):
Consistency criterion: As the transition is approached, fluctuations should grow less than mean values.
“A 2d disordered system has a continuous phase transition (2nd order) with the same critical exponentsas the pure system (no disorder) if n 1”.
HOW DOES DISORDER AFFECT CRITICAL EXPONENTS?
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Weinrib and Halperin (PRB 1983): True if disorder has short-range correlations only.For a disorder potential with long-range correlations:
There are two regimes:Long-range correlated disorder destabilizes the classical critical point! (=relevant perturbation => changes critical exponents)
EXTENDED HARRIS CRITERION
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BRINGING ALL TOGETHER: CONCLUSIONS
Scaling is ‘valid’ within a region determined by disorder strength that is renormalized by
No Anderson transition !!!!!
and D appear to follow the Extended Harris Criterion
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SUPPORT
NSF- PIRENSF- MWN - CIAM
Ohio UniversityCondensed Matter and Surface ScienceGraduate Fellowship
Ohio UniversityNanoscale and Quantum PhenomenaInstitute