efimov physics in ultracold gases efimov physics in ultracold gases rudolf grimm “center for...
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Efimov physicsin ultracold gases
Efimov physicsin ultracold gases
Rudolf GrimmRudolf Grimm
“Center for Quantum Optics” in Innsbruck“Center for Quantum Optics” in Innsbruck
Austrian Academy of SciencesAustrian Academy of Sciences
University of Innsbruck University of Innsbruck
FB18, Santos, 26 Aug 06FB18, Santos, 26 Aug 06
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FB18, Santos, 26 Aug 06FB18, Santos, 26 Aug 06
Efimov physicsin ultracold gases
Efimov physicsin ultracold gases
Rudolf GrimmRudolf Grimm
“Center for Quantum Optics” in Innsbruck“Center for Quantum Optics” in Innsbruck
Austrian Academy of SciencesAustrian Academy of Sciences
University of Innsbruck University of Innsbruck
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1995: Bose-Einstein condensation
2003: molecular condensates
1999: degenerate Fermi gas
2004/05: fermionic condensates and superfluids
milestones in the field
2002/03: ultracold dimers
cold atoms in a nutshell
atom trap: electromagnetic field(our case: focus of powerful infrared laser)
cooling to nanokelvin:laser cooling & subsequent evaporative cooling
atomic species:bosons and fermions
nKnK
2006: Efimov states !!!
BEC
interaction tuning through Feshbach resonances !interaction tuning through Feshbach resonances !
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molecular structure: scattering length
r
U(r)
incident channel
B
a
s wave scattering length a determined by last bound level
abg
last boundlevel many
vib.levels
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molecular structure: scattering length
B
a
abg
r
U(r)
incident channel
bound state
coupling
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Feshbach resonance
r
U(r)
incident channel
bound state
magnetic moment of bound statediffers from the magnetic moment of the incident channel
B
a
s wave scattering length a as a function of magnetic field B
abg
B0
0
1BB
aa bg
coupling
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very large scattering lenghts
rr0
U(r)
r
„quantum halo states“:deuteron, He2, Feshbach molecules !!!
weakly bound last level:
scattering length a>>r0
binding energy Eb = - h2/(ma2)
a system with universal properties !!!
weakly bound last level:
scattering length a>>r0
binding energy Eb = - h2/(ma2)
a system with universal properties !!!
open-channel dominated resonance: single-channel model
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energy1/a
quantum states near two-body resonance
a < 0 a > 0
Edimer = h2/(ma2)
weaklybounddimer
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energy1/a
quantum states near two-body resonance
weakly bound trimer
a < 0 a > 0
even more weaklybound trimer
×22.7
×(22.7)2
infinite series of weakly bound trimer statesfor resonant two-body interaction
„Efimov states“
infinite series of weakly bound trimer statesfor resonant two-body interaction
„Efimov states“
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36 years ago ...
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35 years ago ...
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energy1/a
Efimov resonancesEfimov resonances
a < 0 a > 0
three atoms couple to anthree atoms couple to anEfimov trimer:Efimov trimer:
„„triatomictriatomic Efimov resonance“Efimov resonance“
three atoms couple to anthree atoms couple to anEfimov trimer:Efimov trimer:
„„triatomictriatomic Efimov resonance“Efimov resonance“one atom and a dimer couple to anone atom and a dimer couple to anEfimov trimer:Efimov trimer:
„„atom-dimer Efimov resonance“atom-dimer Efimov resonance“
one atom and a dimer couple to anone atom and a dimer couple to anEfimov trimer:Efimov trimer:
„„atom-dimer Efimov resonance“atom-dimer Efimov resonance“
resonance scenarios predicted in Sov. J. Nucl. Phys. 29, 546 (1979)
resonance scenarios predicted in Sov. J. Nucl. Phys. 29, 546 (1979)
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energy1/a
universalityuniversality
a < 0 a > 0
universality discussed in Sov. J. Nucl. Phys. 29, 546 (1979)
universality discussed in Sov. J. Nucl. Phys. 29, 546 (1979)
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energy1/a
universalityuniversality
a < 0 a > 0
universality discussed in Sov. J. Nucl. Phys. 29, 546 (1979)
universality discussed in Sov. J. Nucl. Phys. 29, 546 (1979)
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energy1/a
universalityuniversality
a < 0 a > 0
universality discussed in Sov. J. Nucl. Phys. 29, 546 (1979)
universality discussed in Sov. J. Nucl. Phys. 29, 546 (1979)
locations of Efimov states / resonance positionsnot universal !!!
additional parameter needed
locations of Efimov states / resonance positionsnot universal !!!
additional parameter needed
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experimental observations
nuclear physicsnuclear physics(Halo nuclei)(Halo nuclei)
molecular physicsmolecular physics(He beams)(He beams)
ultracoldultracoldatom physicsatom physics
none !
none !
many new opportunitiesmany new opportunitiesfor Efimov-relatedfor Efimov-related
few-body physics ! few-body physics !
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the probe
three-body recombination
atomic systems have deeply bound dimers states
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three-body recombination
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three-body recombination
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three-body recomb. theory basics
L3: three-body loss coefficient [cm6/s]
Fedichev et al., PRL 77, 2921 (1996)
prediction of a4 scaling, C = 3.9
Nielsen & Macek, PRL 83, 1566 (1999)Esry et al., PRL 83, 1751 (1999)Bedaque et al., PRL 85, 908 (2000)Braaten & Hammer, PRL 87, 160407 (2001)
CC((aa) = ) = CC(22.7(22.7aa)) with upper limit with upper limit ~~70 for 70 for aa>0>0
oscillatory behavioroscillatory behavior
× × ee ~~ 22.7 22.7
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Esry-Greene-Burke theory
PRL 83, 1751 (1999) calculations for a sech2(rij/r0) model potential
definition ofa recombination length
L3~a4
L3~a4
destructiveinterference effect
destructiveinterference effect
Efimov resonance !Efimov resonance !
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)( with 34
3 aCCm
aCL
0a
* || a
*22
*
sinh)72.1)*
|ln(|0
(sin
)2sinh( 4590)(
asaC
)(aC
Three-body loss coefficient
)(aC
* a
0a
)1( 8.16
)sinh)76.1)*
ln(0
((cose 1.67)(
*4
*2
*22
e
asaC
loss into deeply bound molecules
loss into shallow dimer
effective field theory (Braaten & Hammer)
Efimov resonancesEfimov resonances
Phys. Rep. 428, 259 (2006)
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ultracold.atoms Innsbruck
two teams working on Efimov physics with ultracold cesium atoms
T. Kraemer, M. Mark, J. Danzl, S. Knoop, F. FerlainoB. Engeser, K. Pilch, A. Lange
two teams working on Efimov physics with ultracold cesium atoms
T. Kraemer, M. Mark, J. Danzl, S. Knoop, F. FerlainoB. Engeser, K. Pilch, A. Lange H.-C. Nägerl, R. Grimm
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magnetic tunability of Cs
150 G50 G 100 G
-1000
1000
2000
-2000
3000
0
magnetic field (G)
scat
terin
g le
ngth
(a
0)
F=3, mF=3F=3, mF=3
0
there should be an Efimov resonance !there should be an Efimov resonance !there should be an Efimov resonance !there should be an Efimov resonance !
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CsBEC
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exp. results !
T = 10nK
200nK
triatomictriatomic
Efimov resonanceEfimov resonance
Braaten-Hammertheory*=1/210a0, *=0.06
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exp. results !
Braaten-Hammertheory
Esry, Greene, Burketheory 1999
!!
!!
triatomictriatomic
Efimov resonanceEfimov resonance
T = 10nK
200nK
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exp. results (again)
T = 10nK
200nK
higher temperature (200nK)recombination rate is unitarity limited& shift of loss maximum
higher temperature (200nK)recombination rate is unitarity limited& shift of loss maximum
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triatomic continuum resonance
1/a
Efimov-trimer
200 nK
100 nK 50 nK
Efimov-resonance
(a<0)
E=0
Bringas, Yamashita, Frederico, PRA 69, 040702(R) (2004)
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resonance shift
B. Engeser et al., to be published
linear fit
theoretical calculations of T-dependent shift by three groups:Yamashita et al., Esry et al., S. Jonsell
(work in progress)
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energy1/a
Efimov resonancesEfimov resonances
a < 0 a > 0
resonance scenarios predicted in Sov. J. Nucl. Phys. 29, 546 (1979)
resonance scenarios predicted in Sov. J. Nucl. Phys. 29, 546 (1979)
triatomictriatomic
atom-atom-dimerdimer
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energy structure of cesium
atoms
dimers
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energy structure of cesium
dimers
atoms
we can measure inelastic we can measure inelastic atom-dimer collisionsatom-dimer collisions
at various magnetic fields !at various magnetic fields !
we can measure inelastic we can measure inelastic atom-dimer collisionsatom-dimer collisions
at various magnetic fields !at various magnetic fields !
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inelastic atom-dimer collisions
atom-dimer resonanceatom-dimer resonance
new !new !Aug. 06Aug. 06
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inelastic atom-dimer collisions
a a 400a 400a00
atom-dimer resonanceatom-dimer resonance
+r0-r0
universal ???
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outlookoutlook
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outlook I
taking full advantage of Cs tunabilitytaking full advantage of Cs tunability
our exptsso far
the idealFeshbach resonancefor Efimov physics ?!
can we see the fullcan we see the fullEfimov period (x22.7) ?Efimov period (x22.7) ?
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outlook II
spectroscopy on Efimov states spectroscopy on Efimov states (rf-spectroscopy or modulation method)(rf-spectroscopy or modulation method)
energy1/a
a < 0 a > 0
hh
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outlook III
Few-body physics & Efimov states in an optical latticeFew-body physics & Efimov states in an optical lattice
optical lattice:optical lattice:a 3D array of nanotrapsa 3D array of nanotraps
Stoll & Köhler, PRA 71, 022714 (2005)
making Efimov trimers inan optical lattice
85Rb
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outlook IV
other three-body systemsother three-body systems
1 2
3
a12
a23a13
three non-identical particles
equal masses
6Lilowest threespin states
mixed-species systems
different masses
Mm
M
many combinations availableBose-Bose, Bose-Fermi, Fermi-Fermi
e.g., mass ratio 6Li-174Yb 1:29
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outlook V
four-body physicsfour-body physics
energy1/a
a < 0 a > 0
D+AD+A
A+A+AA+A+A
TriTri
TriTri
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outlook V
four-body physicsfour-body physics
energy1/a
a < 0 a > 0
D+A+AD+A+A
D+DD+D
A+A+A+AA+A+A+A
Tri+ATri+A
Tri+ATri+A
TetramerTetramerstates ?states ?
dimer-dimerdimer-dimerscattering resonances?scattering resonances?
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ConclusionConclusion
ultracoldatoms
nanokelvin
Feshbachresonances
FBFB
ultracold atoms with tunable interactionsa new era of few-body physics is just beginning!
ultracold atoms with tunable interactionsa new era of few-body physics is just beginning!
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loss minimum
three-body loss after 200ms storage in recompressed trap
minimum at 210minimum at 210aa00
half Efimov period (22.71/2): min.-max. loss !
expt. optimization of evaporative cooling towards BEC
!!
→ → 210210aa00 ! !Kraemer et al.,Appl. Phys. B 79, 1013 (2004)
but r0 100a0 (vdW range):applicability of universaltheory questionable !
but r0 100a0 (vdW range):applicability of universaltheory questionable !