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Bose-Hubbard Model (BHM)
at Finite Temperature
- a Layman’s (Sebastian Schmidt) proposal -
pick up Diploma work at FU-Berlin with
PD Dr. Axel Pelster (Uni Duisburg-Essen)
Prof. Hagen Kleinert (FU-Berlin)
~ Diagrammatic techniques, high-order, resummation theory
~Path Integrals in Quantum Mechanics, Statistics, Polymer Physics, and Financial Markets, World Scientific, 4th edition
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Ultracold Atoms – What’s Hot?
Quantum Simulation (QS)
High Tc QCD
W. Hofstetter (Frankfurt U)
Quantum Information (QI)
Atom Chip
Schmiedmayer (TU Vienna)
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Experiment+Theory
Need to know what I simulate
Quantitative agreementbetween Theory and Experiment
Challenges:
Trapping homogeneous inhomogeneousLDA
Finite T Superfluid density, Mott phase ???
Thermometer?
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Numerical vs Analytical
DMRG, DMFT, NRG,…
Monte-Carlo (1D, 2D, 3D)
BUT:• Large-scale/flexibility?• Fermions: Monte-Carlo sign• “Cassandra” Problem
Mean-Field Theory+ Quantum Corrections
Perturbation Theory+ Resummation
BHM=Benchmark
Disorder, GeometriesFlavour, Spinor,….Fermi-Hubbard
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Outline
Formulation of the Problem
Bose Hubbard Model
Finite-T Phase Diagram
Status Quo
Bogoliubov
Strong Coupling
Decoupling
Monte-Carlo as a Benchmark
Proposal:
“From Above”
“From Below”
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Bose-Hubbard Model
Wannier Representation •Lowest band•N.N. hopping
PseudopotentialLattice
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Superfluid-Mott Insulator
Superfluid
Mott Insulator
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Finite-T Phase Diagram
NL
SF
MIU/J
T/J
What is Tc (Uc) in 3D ?
Formulation of the Problem
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MomentumRepresentation Cubic lattice
Bogoliubov
Ansatz: Expand up to quadratic fluctuations& Minimize wrt. condensate density
Linear order:
Quadratic order:
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Bogoliubov
Quasiparticle Energies
No GapSound Modes !
BogoliubovTransformation
Quadraticfluctuations
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Phase transition via Condensate fraction
NO Phase transition at T=0 !BUT Good description of the condensate at weak coupling
Bogoliubov
T=0
van Oosten et al., PRA 63, 053601 (2001)
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Decoupling
Mean field Hamiltonian
with
consistent mean-field theoryAnsatz insite-basis
Perturbation Theory
van Oosten et al., PRA 63, 053601 (2001)
Diagonalization in site-basis
0
0
K. Sheshardi et al., EPL 22, 257 (1993)
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Phase transition ~Landau expansion
Decoupling
=0!
Alexander Hoffmann,Diploma Thesis, FU-Berlin (2006)
Mott LobesFisher et al., PRB 40, 546 (1989)
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Alexander Hoffmann,Diploma Thesis, FU-Berlin (2007)
Finite Temperature
Decoupling
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Strong Coupling
Particle (hole)excitation gap Phase Transition:
Freericks & Monien, PRB 53, 2691 (1996)
3rd order +linear extrapolation
Rayleigh-Schroedingerperturbation theory
Unperturbed system
is site-diagonal!
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T/J
U/J
NL
MIBogoliubov
Strong-Coupling
Decoupling
B. Capogrosso-Sansone, N. V. Prokofev, B. V. Svistunov, PRB 75, 134302 (2007)
Monte-Carlo Data
SF
Status Quo
Reentrantclassical field effect
(zero Matsubara mode)H.Kleinert, S.Schmidt, A.Pelster,
PRL 93, 160402 (2004)
“From Below” “From Above”
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From Above
Phase diagram, Time-of-flight pictures, Visibility, Spin-1 Bosons,…..
Diagrammatic Strong Coupling + Resummation @ T>0
•Decoupling MFT= Subset of strong-coupling diagrams•Quantum Correction completely analytic !
Ohliger & Pelster, unpublished (2008)
T=0 Finite-T
Ednilson Santos, FU-Berlin, PhD Thesis (in preparation)
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From Below
Imaginary time path integral
Bosonic Action
Classical fields
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From Below
Motivation: Generic approach for superfluid phase?
Background field
Free Energy
Tree Level Quadratic Fluctuations
Perturbation
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One-Loop Approximation
From Below
U
+2U
+2U
U
U
Fourier & Matsubara decomposition of Fluctuations and Kernel
Tree Level
Quadratic Fluctuations
with Kernel
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Quasiparticle Energies
One-Loop Approximation Loop counter
U
U
From Below
Extremalization wrt. Bogoliubov
very general approach: long-range, multi-component, disorder etc
allows for systematic diagrammatic analysis Def: 1st Bogoliubov Correction = 2-Loop Background
(has never been calculated?)
U
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From Below
Two-Loop Approximation
Wick TheoremEnsemble Average
Taylor Expansion
Feynman Rules Pseudopotential
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From Below
Two-Loop Approximation
2
NO Divergencies on the lattice!
Diagrams are finite!!!!
Automating higher orders
(Resummation via VPT)
Gap or NO Gap? That’s the Question!