atoms and photons from optical pumping to matter waves · atoms and photons from optical pumping to...
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Atoms and PhotonsFrom Optical Pumping to Matter Waves
Claude Cohen-Tannoudji
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Constant interplay between
- Fundamental interrogations
- Development of new tools, new methods ofinvestigation resulting from a better understandingof the physical mechanisms
- New interrogations, new research fields whoseemergence is made possible by the progress ofexperimental techniques
Atom-photon interactions
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Present a brief survey of the important steps ofthe history of atomic physics.
Try to identify a few trends of evolution, a fewperspectives.
Purpose of this lecture
Describe a few recent developments in the field ofultracold atoms:
- Laser cooling- Bose-Einstein condensation
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New sources of radiation in the RF and microwavedomains (development of the radar)
RF spectroscopyMolecular beam experiments
High precision measurements of the fine and hyperfinestructure of atomic energy levels leading to a fewimportant discoveries
Lamb shiftElectron spin anomaly g-2
Birth of Quantum Electrodynamics (QED)Protoype of quantum field theories
The renaissance of atomic physicsafter world war II
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Exciting atoms with polarized light
Transferring to atoms the angular momentumof polarized photons
Detecting the polarized light emitted or absorbed by atoms
Monitoring the angular momentum state and itschange induced by magnetic resonance or byrelaxation processes
Very sensitive methods allowing precise measurementson very dilute systems
Optical methods of RF spectroscopyDouble resonance - Optical pumping
A. Kastler, J. Brossel
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Optical pumping
σ+
z -1/2 +1/2 e
-1/2 +1/2 g
σ+
• σ+photons have an angular momentum +1 along 0z.Selective excitation of the transition
• The atom falls back in g, +1/2 and remains trapped there.High degrees of spin polarization
at room temperature and in weak fields
, 1/ 2 , 1/ 2g e− → +
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Applications of optical methodsHigh resolution spectroscopy
• Fine and hyperfine structures• Radiative lifetimes
Atom-photon interactions• Multiphoton processes• Light shifts
A recent practical application: MRI of the lung
• Absorption and emission of light by an atomin a linear superposition of Zeeman sublevels
• Quantum beats. Coherent population trapping
Quantum interference effects
Non equilibrium situations• Relaxation processes• Population inversions
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MRI Images of the Human Chest
Proton 3HeProton-MRI 3He-MRI
Duke Univ., CAMRDhttp://camrd4.mc.duke.edu/ (1997)
• Princeton• Boston B&W H., St Louis• Mainz U., Paris-Orsay, Nottingham U• Duke U., U. of Virginia, U. of Pennsylvania.
About 10 more centres getting started
Human lung MRI centres :
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New sources of radiation
- using amplification by stimulated emission- with spectacular performances (intensity, monochromaticity,
coherence, pulsed operation, tunability...)
Increasing number of laser media
- Discharges, crystals, dyes, semiconductors...- Devices becoming easier to operate, cheaper, smaller...
Masers and lasers
A new era for the physicsof atoms and photons
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- Nonlinear spectroscopiesSaturated absorptionDoppler free two-photon absorption
- Time-resolved spectroscopiesUltra-short pulsesFemtochemistry
- Nonlinear opticsHarmonic generationFour wave mixing
- Terrawatt lasersRelativistic effects
- Reduction of quantum noiseSqueezing
Examples of new research fields opened by lasers
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Laser cooling and trapping
Using resonant exchanges of linear momentum between atomsand photons for controlling atomic motion with laser lightRadiative forces exerted by laser beams on atoms and allowingone to trap them and to cool them to very low temperatures, onthe order of a few microkelvinsApplications
- Long observation timesHigh resolution spectroscopyAtomic clocks
- Long de Broglie wavelengths (λdB increases if v decreases)Atomic interferometryQuantum degenerate gasesBose-Einstein condensation
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Radiation pressure force
vrec
After each fluorescence cycle, the atomic momentumincreases on the average by an amount equal to themomentum hν/c of the absorbed photon.Its velocitychanges by an amount vrec = hν/Mc on the order of 10-2m/s
Resonant laser beamAtom
Mean number N of fluorescence cycles per second : on theorder of 1/τR where τR is the radiative lifetime of e, about 10-8sAcceleration a (or deceleration)
a is on the order of vrec x N , i.e. on the order of
10-2 x 108 m / s2 = 105 g
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Laser Doppler cooling
2 counterpropagating laser beamsSame intensitySame frequency, detuned to the red ( νL < νA)
νL < νA νL < νA
Atom at rest (v=0)The two radiation pressure forces cancel each other out
Atom moving with velocity vBecause of the Doppler effect, the counterpropagatingwave gets closer to resonance and exerts a strongerforce than the copropagating wave which gets fartherNet force opposite to v and proportional to v for v small
Friction force "Optical molasses"
(T. Hansch, A. Schawlow, D. Wineland, H. Dehmelt)
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Sisyphus coolingJ.Dalibard, C.Cohen-Tannoudji
•Several ground state sublevels
g Spin up g Spin down
•In a laser standing wave, spatial modulation of the laser intensity and of the laser polarization
- Spatially modulated shifts of g↑ and g↓ due to the laser light- Correlated spatial modulations of optical pumping rates g↑ g↓
σ+ σ - σ+
g ↓
g ↑The moving atom is always running up potential hills (like Sisyphus) !Very efficient cooling scheme leading to temperatures in the µK range
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Atomic Fountain principleAtomic Fountain principleAtomic Fountain principle
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Atomic clocks with Atomic clocks with cold cold atomsatoms
• Thermal beam : v = 100 m/s, T = 5 ms∆ν = 100 Hz
• Fountain : v = 4 m/s, T = 0.5 s∆ν = 1 Hz
• PHARAO : v = 0.05 m/s, T = 5 s∆ν = 0.1 Hz
A.Clairon, C.Salomon (B.N.M./L.P.T.F.)
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Mai 1997
TESTS OF PHARAO WITH PARABOLIC FlIGHTS
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1950 1960 1970 1980 1990 2000 201010-17
1x10-16
10-15
1x10-14
1x10-13
1x10-12
1x10-11
1x10-10
1x10-9
Optical clocks
ACES
Ca PTB
H MPQ
Cold atoms
Microwave clocksSlope: gain of 10 every 10 years
ACCURACY OF THE ATOMIC TIME
NIST: Hg+
LPTF
PTBNIST
PTBNRCNBSVNIIFTRI
NPLNBSLSRH
REL
ATIV
E AC
CU
RAC
Y
YEAR
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Evaporative cooling
After the collision, the 2 atoms have energiesE3 et E4, with
E1+ E2= E3+ E4
E3
E4
E2
E1 U0
If E4 > U0, the atom with energy E4 leaves the well
Atoms trapped in a potential well with a finite depth U0
The remaining atom has amuch lower energy E3.After rethermalisation of the atoms remaining trapped,the temperature of the sample decreases
2 atoms with energiesE1 et E2 undergo an elastic collision
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RF EvaporationD. Pritchard
Position
-1
+1
0
Ener
gy
U0
Decreasing the potential depth U0 when the temperature decreasesin order to maintain an efficient evaporationThe atom is transferred to an untrapped state with a RF field whichis resonant when the energy of the atom reaches the value U0
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Bose-Einstein condensation
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Bose-Einstein condensation (BEC)At low enough temperatures and high enough densities, the deBroglie wavelength of the atoms becomes larger than the meandistance between atoms
Identical bosons in a trap are then predicted to condense in theground state of the trap.Macroscopic number of atoms in the same quantum state.Macroscopic matter waves
Combination of laser cooling and trapping with previouslydeveloped methods for studying spin-polarized Hydrogen(magnetic trapping, evaporative cooling) have led to theobservation of BEC in alkali gases.
Boulder, MIT, Houston (1995)
Recent observation of BEC in Hydrogen (MIT, 1998) and inmetastable Helium (Orsay, ENS, 2001)
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Sketch of the waves associated with the trapped atoms
T >> TC
T > TC
Evolution of thesewaves when T decreases from avalue much higherthan TC to a value much lower
T ~ TC
T < TC
W. Ketterle
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Bimodal structure of the spatial distribution of bosons
Contribution of the condensed atoms
Narrow peak with a widthcorresponding to the ground state wave function of the well
Contribution of the non condensed atoms
Broad piedestal coming from atoms occupying excitedstates ot the well described by wave functions with alarger width
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Different steps of the experiment
• Laser cooling and trapping of atoms coming from an atomic beam or from a vapour cell
T = a few µK N = 107 to 108 atoms
• The laser beams are switched off. A magnetic trap is switched on and the trap is compressed in order toincrease the density and the elastic collision rate
• Evaporation with a ramp of radiofrequency field.The temperature decreases and the phase space density increases until the condensation threshold is reached.
• Switching off of the trap and optical detection of thecloud after a phase of balistic expansion (in order toincrease the size of the cloud and to get images not limited by diffraction).
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Visualization of the atomic cloud
Spatial dependence of the absorptionof a laser beam by the cloud
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Bose-Einstein condensation of Rubidium 87JILA - Boulder
Science, 269, 198 (1995)
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Bose-Einstein condensation of SodiumMIT
Phys. Rev. Lett. 75, 3969 (1995)
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Bose-Einstein condensation of metastable helium IOTA - Orsay
A. Robert, O. Sirjean, A. Browaeys, J. Poupard, S. Nowak, D. Boiron, C. Westbrook, A. Aspect,
Science, 292, 461 (2001)
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Bose-Einstein condensation of metastable helium ENS -Paris
F. Pereira Dos Santos, J. Léonard, J. Wang, C. Barrelet, F. Perales, E. Rasel, C. Unnikrishnan, M. Leduc,
C. Cohen-Tannoudji, Phys. Rev. Lett. 86, 3459 (2001)
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Interferences between 2 condensatesPrinciple of the M.I.T. experiment
2 trapped condensates
Free fall of 8mm and balistic expansion
Cutting a slice
Probe laser
Condensatecut in 2 partsby a laser
Imaging
M.R.Andrews, C.G.Townsend, H.-J. Miesner, D.S. Durfee, D.M.Kurn, W.Ketterle, Science, 31 Janvier 1997
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Observed interference fringes
M.R.Andrews, C.G.Townsend, H.-J. Miesner, D.S. Durfee, D.M.Kurn, W.Ketterle, Science, 31 Janvier 1997
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Exemples of atom lasers
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Extraction of 2 matter wavesfrom a Bose-Einstein condensate
E
z
I. Bloch, T.W. Hänsch, T. EsslingerNature, 403, 166 (2000)
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Interférences between 2 matter waves extracted from a Bose-Einstein condensate
T < TC T > TCT ≈ TC
I. Bloch, T.W. Hänsch, T. EsslingerNature, 403, 166 (2000)
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Quantized vortexin a condensate of Rubidium 87
ENS – Paris
K.W. Madison, F. Chevy, W. Wohlleben, J. DalibardPhys. Rev. Lett. 84, 806 (2000)
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Lattice of vorticesin a condensate of Rubidium 87
ENS – Paris
K.W. Madison, F. Chevy, W. Wohlleben, J. DalibardPhys. Rev. Lett. 84, 806 (2000)
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Mixture of Lithium isotopes Bosons with Fermions
F. Schreck L. Khaykovich
T. Bourdel J. Cubizolles
K.L. Corwin G. FerrariC. Salomon
E.NS. Paris
Mixture of 7Li (bosons) and 6Li (fermions) in a magnetic trap
6Li atoms are cooled sympathetically by 7Li
Coexistence of two quantum degenerate gases
See also groups of D. Jin, NIST, ColoradoR. Hulet, Rice University, HoustonW. Ketterle, MIT
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•••••••
••••
•••
Bosons Fermions
EFermi
Bosons versus Fermions at very low T
Fermi temperature TFCritical temperature TC for BEC
( )1/ 3Fermi 6B Fk T E Nω= =( )1/ 30.83B Ck T Nω=
• Bosons condense in the ground state• Each state is occupied by a single Fermion
Fermi degeneracy is achieved when T ≤ TF
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0,1 0,2 0,3 0,4
0,0
0,2
0,4
0,6
0,8
1,0
Scal
ed o
ptic
al d
ensi
ty [a
rb]
axial distance [mm]0,6 mm
Li6
Li6
Li7Li7
Fermi pressure
2.7 104 bosons at T = 0.97 µK ⇒ T/TF = 0.228.1 104 fermions with TF = 4.38 µK
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BEC of 7Li in a Fermi sea of 6Li
F. Schreck, L. Khaykovich, K.L. Corwin, G. Ferrari, T. Bourdel, J. Cubizolles, and C. Salomon, Phys. Rev. Lett. 87, 080403 (2001)
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A few perspectives
Fermi degenerate gases with ultracold atomsPairing of fermionic atoms?BCS with atoms?
Nonlinear atom optics
Microcondensates on microchips
Cavity quantum electrodynamics
Quantum informationEntangled statesQuantum cryptographyTeleportation