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Lecture 2: Ultracold fermions
Fermions in optical lattices. Fermi Hubbard model.Current state of experiments
Lattice modulation experiments
Doublon lifetimes
Stoner instability
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Ultracold fermions in optical lattices
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Fermionic atoms in optical lattices
t
U
tExperiments with fermions in optical lattice, Kohl et al., PRL 2005
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Quantum simulations with ultracold atoms
Antiferromagnetic and superconducting Tc of the order of 100 K
Atoms in optical lattice
Antiferromagnetism and pairing at sub-micro Kelvin temperatures
Same microscopic model
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Positive U Hubbard modelPossible phase diagram. Scalapino, Phys. Rep. 250:329 (1995)
Antiferromagnetic insulator
? D-wave superconductor
-
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Repulsive Hubbard model at half-filling
Mott statewithout AF order
currentexperimentsTN
U
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Signatures of incompressible Mott state of fermions in optical lattice
Suppression of double occupanciesR. Joerdens et al., Nature (2008)
Compressibility measurementsU. Schneider et al., Science (2008)
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Lattice modulation experiments with fermions in optical lattice.
Probing the Mott state of fermionsSensarma, Pekker, Lukin, Demler, PRL (2009)
Related theory work: Kollath et al., PRL (2006)Huber, Ruegg, PRB (2009)Orso, Iucci, et al., PRA (2009)
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Lattice modulation experimentsProbing dynamics of the Hubbard model
Modulate lattice potential
Measure number of doubly occupied sites
Main effect of shaking: modulation of tunneling
Doubly occupied sites created when frequency ω matches Hubbard U
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Lattice modulation experimentsProbing dynamics of the Hubbard model
R. Joerdens et al., Nature 455:204 (2008)
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Mott state
Regime of strong interactions U>>t.
Mott gap for the charge forms at
Antiferromagnetic ordering at
“High” temperature regimeAll spin configurations are equally likely.Can neglect spin dynamics.
“Low” temperature regimeSpins are antiferromagnetically ordered or have strong correlations
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Schwinger bosons and Slave Fermions
Bosons Fermions
Constraint :
Singlet Creation
Boson Hopping
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Schwinger bosons and slave fermionsFermion hopping
Propagation of holes and doublons is coupled to spin excitations.Neglect spontaneous doublon production and relaxation.
Doublon production due to lattice modulation perturbation
Second order perturbation theory. Number of doublons
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“Low” TemperatureSchwinger bosons Bose condensed
d
h
Propagation of holes and doublons strongly affected by interaction with spin waves
Assume independent propagation of hole and doublon (neglect vertex corrections)
= +
Self-consistent Born approximation Schmitt-Rink et al (1988), Kane et al. (1989)
Spectral function for hole or doublonSharp coherent part:dispersion set by t2/U, weight by t/U
Incoherent part:dispersion
Oscillations reflect shake-off processes of spin waves
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“Low” Temperature
Rate of doublon production
• Sharp absorption edge due to coherent quasiparticles
• Broad continuum due to incoherent part
• Spin wave shake-off peaks
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“High” TemperatureCalculate self-energy of doublons and holes interacting with incoherentspin excitations (Schwinger bosons) in the non-crossing approximation
Sensarma et al., PRL (2009)Tokuno et al. arXIv:1106.1333
Equivalent to Retraceable Path Approximation Brinkmann & Rice, 1970
In calculating spectral function consider paths with no closed loops
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“High” TemperatureSpectral Fn. of single hole
Doublon production rateExperiment: R. Joerdens et al., Nature 455:204 (2008)
Theory: Sensarma et al., PRL (2009)Tokuno et al. arXIv:1106.1333
d
h
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Reduced probability to find a singlet on neighboring sites
Radius Radius
Den
sity
P sin
glet
D. Pekker et al., upublished
Temperature dependenceTemperature dependence
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Fermions in optical lattice.Decay of repulsively bound pairs
Experiments: ETH groupTheory: Sensarma, Pekker, et. al.
Ref: N. Strohmaier et al., PRL 2010
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Fermions in optical lattice.Decay of repulsively bound pairs
Doublons – repulsively bound pairsWhat is their lifetime?
Direct decay isnot allowed byenergy conservation
Excess energy U should be converted to kinetic energy of single atoms
Decay of doublon into a pair of quasiparticles requires creation of many particle-hole pairs
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Fermions in optical lattice.Decay of repulsively bound pairs
Experiments: N. Strohmaier et. al.
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Relaxation of doublon- hole pairs in the Mott state
Energy U needs to be absorbed by spin excitations
Relaxation requires
creation of ~U2/t2
spin excitations
Energy carried by
spin excitations
~ J =4t2/U
Relaxation rate Sensarma et al., PRL 2011
Very slow, not relevant for ETH experiments
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Doublon decay in a compressible stateExcess energy U isconverted to kineticenergy of single atoms
Compressible state: Fermi liquid description
Up-p
p-h
p-h
p-h
Doublon can decay into apair of quasiparticles with many particle-hole pairs
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Doublon decay in a compressible statePerturbation theory to order n=U/6tDecay probability
Doublon Propagator Interacting “Single” Particles
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Doublon decay in a compressible state
To calculate the rate: consider processes which maximize the number of particle-hole excitations
Expt: ETHZTheory: Harvard
N. Strohmaier et al., PRL 2010
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Why understanding doublon decay rate is interesting
Important for adiabatic preparation of strongly correlated systems in optical lattices
Response functions of strongly correlated systems at high frequencies. Important for numerical analysis.
Prototype of decay processes with emission of many interacting particles. Example: resonance in nuclear physics: (i.e. delta-isobar)
Analogy to pump and probe experiments in condensed matter systems
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Doublon relaxation in organic Mott insulators ET-F2TCNQ
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One dimensional Mott insulator ET-F2TCNQ
t=0.1 eV U=0.7 eV
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Photoinduced metallic state
Surprisingly long relaxation time 840 fs
h/t = 40 fs
H. Okamoto et al., PRL 98:37401 (2007)S. Wall et al. Nature Physics 7:114 (2011)
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Photoinduced metallic stateH. Okamoto et al., PRL 98:37401 (2007)S. Wall et al. Nature Physics 7:114 (2011)
1400 fscomparable to experimentally measured 840 ms
t=0.1 eVw=4t=0.4eVU=0.7 eV
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Exploring beyond simple Hubbard modelwith ultracold fermions
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SU(N) Hubbard model withUltracold Alkaline-Earth Atoms
Ex: 87Sr (I = 9/2)
|g> = 1S0
|e> = 3P0698 nm
150 s ~ 1 mHz
• orbital degree of freedom � spin-orbital physics→ Kugel-Khomskii model [transition metal oxides with perovskite structure]→ SU(N) Kondo lattice model [for N=2, colossal magnetoresistance in manganese oxides and heavy fermion materials]
Nuclear spin decoupled from electrons SU(N=2I+1) symmetry→ SU(N) Hubbard models � valence-bond-solid & spin-liquid phases
Theory: A. Gorshkov, et al., Nature Physics 2010
Experiments: realization of SU(6) fermionsTakahashi et al. PRL (2010)Also J. Ye et al., Science (2011)
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Nonequilibrium dynamics: expansion of interacting fermions in optical lattice
U. Schneider et al., Nature Physics 2012
New dynamical symmetry:identical slowdown of expansionfor attractive and repulsiveinteractions
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Competition between pairing and ferromagnetic instabilities in ultracold Fermi gases near Feshbach resonances
Phys. Rev. Lett. 2010
D. Pekker, M. Babadi, R. Sensarma, N. Zinner, L. Pollet, M. Zwierlein, E. Demler
Motivated by experiments of G.‐B. Jo et al., Science (2009)
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then
Stoner model of ferromagnetismSpontaneous spin polarizationdecreases interaction energybut increases kinetic energy ofelectrons
Mean‐field criterion
U N(0) = 1
U – interaction strengthN(0) – density of states at Fermi level
Theoretical proposals for observing Stoner instability with cold gases: Salasnich et. al. (2000); Sogo, Yabu (2002); Duine, MacDonald (2005); Conduit, Simons (2009); LeBlanck et al. (2009); …
Kanamori’s counter‐argument: renormalization of U.
Recent work on hard sphere potentials: Pilati et al. (2010); Chang et al. (2010)
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Experiments weredone dynamically.What are implicationsof dynamics?Why spin domains could not be observed?Earlier work by C. Salomon et al., 2003
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Is it sufficient to consider effective model with repulsive interactions when analyzing experiments?
Feshbach physics beyond effective repulsive interaction
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Feshbach resonance
Interactions between atoms are intrinsically attractiveEffective repulsion appears due to low energy bound states
Example:
scattering lengthV(x)
V0 tunable by the magnetic fieldCan tune through bound state
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Feshbach resonanceTwo particle bound state formed in vacuum
BCS instabilityStoner instability
Molecule formationand condensation
This talk: Prepare Fermi state of weakly interacting atoms.Quench to the BEC side of Feshbach resonance.System unstable to both molecule formationand Stoner ferromagnetism. Which instability dominates ?
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Pair formation
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Two‐particle scattering in vacuum
k ‐kp
‐pMicroscopic Hamiltonian
Schrödinger equation
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Lippman-Schwinger equation
T-matrix
For positive scattering length bound state atappears as a pole in the T-matrix
kk
-k
k
-k -p’-p -p
pp k pp’
-p
On-shell T-matrix. Universal low energy expression
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CooperonTwo particle scattering in the presence of a Fermi sea
k
p
‐k
‐p
Need to make sure that we do not include interaction effects on the Fermi liquid state in scattered state energy
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Cooperon vs T-matrix
kk
-k
k
-k -p’-p -p
pp k pp’
-p
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Cooper channel response functionLinear response theory
Induced pairing field
Response function
Poles of the Cooper channel response function are given by
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Cooper channel response function
Poles of the response function, ,describe collective modes
Linear response theory
Time dependent dynamics
When the mode frequency has negative imaginary part,the system is unstable
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Pairing instability regularized
BCS side
Instability rate coincides with the equilibrium gap(Abrikosov, Gorkov, Dzyaloshinski)
Instability to pairing even on the BEC side
Related work: Lamacraft, Marchetti, 2008
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Pairing instabilityIntuition: two body collisions do not lead to molecule formation on the BEC side of Feshbach resonance.Energy and momentum conservation laws can notbe satisfied.
This argument applies in vacuum. Fermi sea preventsformation of real Feshbach molecules by Pauli blocking.
Molecule Fermi sea
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Pairing instabilityTime dependent variational wavefunction
Time dependence of uk(t) and vk(t) due to ∆BCS(t)
For small ∆BCS(t):
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Pairing instability
From wide to narrow resonances
Effects of finite temperature
Three body recombination as in Shlyapnikov et al., 1996;Petrov, 2003; Esry 2005
Observed in recent experimentsby Grimm’s group, arXiv:1112.0020
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Magnetic instability
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Stoner instability. Naïve theory
Linear response theory
Spin response function
Spin collective modes are given by the poles of response function
Negative imaginary frequencies correspond to magnetic instability
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RPA analysis for Stoner instability
Self-consistent equation on response function
Spin susceptibility for non-interacting gas
RPA expression for the spin response function
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Quench dynamics across Stoner instability
Stoner criterion
For U>Uc unstable collective modes
Unstable modes determine characteristic lengthscale of magnetic domains
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Stoner quench dynamics in D=3
Scaling near transition
Growth rate of magnetic domainsUnphysical divergenceof the instability rate at unitarity
Domain size
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Stoner instability
= + + + …= + + + …
Stoner instability is determined by two particlescattering amplitude
Divergence in the scattering amplitude arises from bound state formation. Bound state is strongly affected by the Fermi sea.
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Stoner instabilityRPA spin susceptibility
Interaction = Cooperon
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Stoner instability
Pairing instability always dominates over pairing
If ferromagnetic domains form, they form at large q
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Tests of the Stoner magnetismC. Sanner et al., arXiv:1108.2017
Spin fluctuations relative tononinteracting fermions
Extremely fast molecule formation rate at short times
Atoms loss rate is 13% of EFon resonance (averaged over trap)
Only short range correlationsand no domain formation
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Lecture 2: Ultracold fermions
Fermions in optical lattices. Fermi Hubbard model.Current state of experiments
Lattice modulation experiments
Doublon lifetimes
Stoner instability
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Future directions in ultracold atomsNonequilibrium quantum many-body dynamics
Long intrinsic time scales- Interaction energy and bandwidth ~ 1kHz- System parameters can be changed over this time scale
Decoupling from external environment- Long coherence times
Can achieve highly non equilibrium quantum many-body states
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Emergent phenomena in dynamics of classical systems
Universality in quantum many-body systems in equilibrium
Solitons in nonlinear wave propagation Broken symmetries
Bernard cells in the presence of T gradient
Do we have emergent universal phenomena in nonequilibrium dynamics of many-body
quantum systems?
Fermi liquid state
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Hubbard model at half filling
TN
U
paramagneticMott phase
Paramagnetic Mott phase:
one fermion per sitecharge fluctuations suppressedno spin order
BCS-typetheory applies
Heisenbergmodel applies
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Hubbard model at half filling
TN
U
currentexperiments
BCS-typetheory applies
Heisenbergmodel applies