Atomic Quantum Gases far from Thermal Equilibriumbec10/Gasenzer_Lecture1.pdf · Thomas Gasenzer...
Transcript of Atomic Quantum Gases far from Thermal Equilibriumbec10/Gasenzer_Lecture1.pdf · Thomas Gasenzer...
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Atomic Quantum Gasesfar from Thermal Equilibrium
Thomas Gasenzer
Institut für Theoretische Physik Ruprecht-Karls Universität Heidelberg
Philosophenweg 16 • 69120 Heidelberg • Germany
email: [email protected]: www.thphys.uni-heidelberg.de/~gasenzer
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Ultracool Gasesfar from Equilibrium
Thomas Gasenzer
Institut für Theoretische Physik Ruprecht-Karls Universität Heidelberg
Philosophenweg 16 • 69120 Heidelberg • Germany
email: [email protected]: www.thphys.uni-heidelberg.de/~gasenzer
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BEC10 Summer School · MPIPKS Dresden · 9. August 2010 · Lecture 1 Thomas Gasenzer
Overview Lecture 1: Introduction
Ultracold gases & their dynamics, mean-field theory
Lecture 2: Non-equilibrium QFTFunctional approach, 2PI effective action.
Lecture 3: Far-from-equilibrium DynamicsThermalization. Turbulence & critical dynamics.
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BEC10 Summer School · MPIPKS Dresden · 9. August 2010 · Lecture 1 Thomas Gasenzer
Thanks & credits to......my work group in Heidelberg:
Cédric Bodet Matthias KronenwettBoris Nowak Denes SextyMartin TrappeJan Zill
Alexander Branschädel ( Karlsruhe)Stefan Keßler ( LMU München)Christian Scheppach ( Cambridge, UK)Philipp Struck ( Konstanz) Kristan Temme ( Vienna)
...my collaboratorsJürgen Berges (Darmstadt) • Hrvoje Buljan (Zagreb) • Keith Burnett (Oxford/ Sheffield) • David Hutchinson (Otago) • Paul S. Julienne (NIST Gaithersburg) • Thorsten Köhler (Oxford/UCL) • Otto Nachtmann (Heidelberg) • Markus K. Oberthaler (Heidelberg) • Jan M. Pawlowski (Heidelberg) • Robert Pezer (Sisak) • David Roberts (Oxford/Los Alamos) • Janne Ruostekoski (Southampton) • Michael G. Schmidt (Heidelberg) • Marcos Seco (Santiago de Compostela)
LGFG BaWue
€€€...
ExtreMe Matter Institute
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Lecture 1Introduction to Dynamicsof Ultracold Quantum Gases
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BEC10 Summer School · MPIPKS Dresden · 9. August 2010 · Lecture 1 Thomas Gasenzer
ULTRAcool...
... atoms @ nanokelvins –
trapped only a few mm away from
glass cell @ room temperature
(vacuum of 10-12 Torr, i.e. 10-15 bar,or 10-10 Pa,
≈ atmospheric pressure on the moon)
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BEC10 Summer School · MPIPKS Dresden · 9. August 2010 · Lecture 1 Thomas Gasenzer
Bose-Einstein condensation
Bose-Einstein condensation (BEC)
bimodaldistribution
Experimental picture after free expansion of the trapped cloud:
dens
ity
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BEC10 Summer School · MPIPKS Dresden · 9. August 2010 · Lecture 1 Thomas Gasenzer
Degenerate Fermi gases
[Truscott et al., Science 291, 2570 (01)]
[D. Jin, Phys. World (Apr 02)]
Pauli blocking
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BEC10 Summer School · MPIPKS Dresden · 9. August 2010 · Lecture 1 Thomas Gasenzer
Quantum Nonequilibrium Dynamics of Ultracold Atomic Gases:
Theory?
• Mean-field theories [Gross-Pitaevskii, Hartree-Fock(-Bogoliubov)] • Kinetic/hydrodynamic approaches (close to equilibrium)
[Quantum Boltzmann, ZNG, …]
• (Semi-)classical simulations [Truncated Wigner Approximation, Positive P, ...]• Exactly solvable models [Lieb & Liniger, Luttinger, Girardeau, McGuire, Gaudin, Minguzzi, Buljan, ...] • Quantum-Information inspired: tDMRG, MPS/PEPS
[Vidal, Schollwöck, Kollath, White, Feiguin, Manmana, Muramatsu, Wolf, Cirac, ...]• Quantum Monte Carlo, stochastic Quantisation [Mak, Egger, Stoof; Berges, Sexty & Stamatescu, ...]
• Functional QFT: 2PI effective action, Kadanoff-Baym, RG methods
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1.1 BEC theory
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BEC10 Summer School · MPIPKS Dresden · 9. August 2010 · Lecture 1 Thomas Gasenzer
How to describe a condensate?
Cloud of atoms (density profiles) Matter wave (interference pattern)
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BEC10 Summer School · MPIPKS Dresden · 9. August 2010 · Lecture 1 Thomas Gasenzer
How to describe a condensate?
[A. Gretzki]
Particles Waves or?
Go for both!
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BEC10 Summer School · MPIPKS Dresden · 9. August 2010 · Lecture 1 Thomas Gasenzer
Coherent states
Superposition
ξ
n
α 2n
n!
â|⟩ = |⟩
= Poisson-distribution:
p(n) =
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BEC10 Summer School · MPIPKS Dresden · 9. August 2010 · Lecture 1 Thomas Gasenzer
Coherent states in phase space
â|⟩ = |⟩
X ~ Re()
P ~ Im()
⟨X⟩ ~ ⟨ â + ↠⟩ ~ ⟨E(x,t)⟩
Gaussian w/ width: ~ â†â − â†â
Wigner function
||=n1/2
Rotation w/HO freq. ω
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BEC10 Summer School · MPIPKS Dresden · 9. August 2010 · Lecture 1 Thomas Gasenzer
⟨ x
⟩ ~
⟨ E
⟩
Coherent state
Source: http://www.gerdbreitenbach.de/gallery/
Wigner function
P ~ Im()
X ~ Re()
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BEC10 Summer School · MPIPKS Dresden · 9. August 2010 · Lecture 1 Thomas Gasenzer
(Min. uncertainty) coherent states
Nature, 387, 471 (1997)
X ~ Re()
P ~ Im()
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BEC10 Summer School · MPIPKS Dresden · 9. August 2010 · Lecture 1 Thomas Gasenzer
Nonclassical states in phase space
Nature, 448 (2007)
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BEC10 Summer School · MPIPKS Dresden · 9. August 2010 · Lecture 1 Thomas Gasenzer
Nonclassical states in phase space
Nature, 448 (2007)
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BEC10 Summer School · MPIPKS Dresden · 9. August 2010 · Lecture 1 Thomas Gasenzer
How to describe a condensate?
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BEC10 Summer School · MPIPKS Dresden · 9. August 2010 · Lecture 1 Thomas Gasenzer
How to describe a condensate?
( )
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BEC10 Summer School · MPIPKS Dresden · 9. August 2010 · Lecture 1 Thomas Gasenzer
How to describe a condensate?
( )
Cooper pairs, ...
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BEC10 Summer School · MPIPKS Dresden · 9. August 2010 · Lecture 1 Thomas Gasenzer
There is a subtlety...
Two (generally inequivalent) alternatives:
(⇔ coherent state)
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BEC10 Summer School · MPIPKS Dresden · 9. August 2010 · Lecture 1 Thomas Gasenzer
...in describing a condensate:
Two (generally inequivalent) alternatives:
(⇔ coherent state)
Penrose-Onsager criterium:
which is called Off-Diagonal Long Range Order (ODLRO)
compatible with mean field:
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BEC10 Summer School · MPIPKS Dresden · 9. August 2010 · Lecture 1 Thomas Gasenzer
...in describing a condensate:
Two (generally inequivalent) alternatives:
(⇔ coherent state)
Penrose-Onsager criterium, with 0:
(⇔ shift condensate density into the connected part, i.e., assume number state)
also = 0
takes into accountnumber conservation
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1.2 Mean-field dynamics
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BEC10 Summer School · MPIPKS Dresden · 9. August 2010 · Lecture 1 Thomas Gasenzer
Gross-Pitaevskii dynamicsMany-body Hamiltonian:
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BEC10 Summer School · MPIPKS Dresden · 9. August 2010 · Lecture 1 Thomas Gasenzer
Gross-Pitaevskii dynamicsMany-body Hamiltonian:
Gross-Pitaevskii, i.e. Classical Field Equation for “matter waves”, from vNE:
⇒
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BEC10 Summer School · MPIPKS Dresden · 9. August 2010 · Lecture 1 Thomas Gasenzer
Gross-Pitaevskii dynamicsMany-body Hamiltonian:
Gross-Pitaevskii, i.e. Classical Field Equation for “matter waves”, from vNE:
typical scattering length:typical bulk density:
⇒ diluteness parameter: (GPE valid for ⇔ small condensate depletion)
⇒
a ≃ 5 nmn ≃ 1014 cm−3
na3≃ 10−5 na3 ≪ 1
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BEC10 Summer School · MPIPKS Dresden · 9. August 2010 · Lecture 1 Thomas Gasenzer
Low-energy scattering
internuclear distance r
pote
ntia
l en
ergy
V(r
)
= angle between p and r
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BEC10 Summer School · MPIPKS Dresden · 9. August 2010 · Lecture 1 Thomas Gasenzer
Low-energy scattering
internuclear distance r
pote
ntia
l en
ergy
V(r
)
= angle between p and r
for low p = k0: s-wave amplitude:“effective
range”
∈ ℝ
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BEC10 Summer School · MPIPKS Dresden · 9. August 2010 · Lecture 1 Thomas Gasenzer
Low-energy scattering
= angle between p and r
for low p = k0: s-wave amplitude:“effective
range”
∈ ℝ
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BEC10 Summer School · MPIPKS Dresden · 9. August 2010 · Lecture 1 Thomas Gasenzer
Low-energy scattering
= angle between p and r
for low p = k0: s-wave amplitude:“effective
range”
∈ ℝ(forget about the
black curves)
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BEC10 Summer School · MPIPKS Dresden · 9. August 2010 · Lecture 1 Thomas Gasenzer
Gross-Pitaevskii hydrodynamicsGPE:
Hydrodynamic ansatz: Density :
Velocity field:
Obtain continuity and (quantum) Euler equations:
(irrotational ideal liquid = superfluid) e.o.s:
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BEC10 Summer School · MPIPKS Dresden · 9. August 2010 · Lecture 1 Thomas Gasenzer
Gross-Pitaevskii hydrodynamics
30°init. twist: density / phase
45°init. twist: density / phase
15°init. twist: density / phase
[M. Davis (01)]
GPE:
Hydrodynamic ansatz: Density :
Velocity field:
Obtain continuity and (quantum) Euler equations:
(irrotational ideal Example: The Scissors mode: liquid = superfluid)
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BEC10 Summer School · MPIPKS Dresden · 9. August 2010 · Lecture 1 Thomas Gasenzer
Gross-Pitaevskii hydrodynamicsGPE:
Hydrodynamic ansatz: Density :
Velocity field:
Nonlinear dynamics: Vortex generation – superfluid flow:
[Anglin & Ketterle (02)]
[Abu-Shaeer et al. (01)]
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1.3 Beyond Gross-Pitaevskii
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BEC10 Summer School · MPIPKS Dresden · 9. August 2010 · Lecture 1 Thomas Gasenzer
Gross-Pitaevskii dynamicsMany-body Hamiltonian:
Gross-Pitaevskii, i.e. Classical Field Equation for “matter waves”, from vNE:
⇒
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BEC10 Summer School · MPIPKS Dresden · 9. August 2010 · Lecture 1 Thomas Gasenzer
Beyond Gross-Pitaevskii
Hartree-Fock-Bogoliubov (HFB) from and factorisation:
analogously for 3rd-order correlation function.
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BEC10 Summer School · MPIPKS Dresden · 9. August 2010 · Lecture 1 Thomas Gasenzer
Beyond Gross-Pitaevskii
Hartree-Fock-Bogoliubov (HFB) from and factorisation:
analogously for 3rd-order correlation function.
⇒ Closed system of coupled e.o.m. for (x) = x ñ(x,y) = x
†y − x*y
m(x,y) = xy − xy
~
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BEC10 Summer School · MPIPKS Dresden · 9. August 2010 · Lecture 1 Thomas Gasenzer
Hartree-Fock-Bogoliubov(HFB) from and factorisation:
⇒ Closed system of coupled e.o.m. for and ñ, m:
mean-field approximation
~
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