ming-shien chang chang.pdf · 2016. 2. 19. · lamb-dicke parameter ... neutral-ion hybrid-trap...
TRANSCRIPT
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Ming-Shien Chang
Institute of Atomic and Molecular Sciences
Academia Sinicawww.iams.sinica.edu.tw
FOCUS
NSF PFC
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Introduction to ultracold atomic physics
How does laser cooling work
Cadmium MOT
Outlook
2NTHU, Dec. 2009
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Define the “Ultracold”
• Laboratory energy scales
• 1 peV < energy < 1 TeV
Atomic velocities
room temperature gas: 300 meters/sec
ultracold gas: 6 meters/hour
Tevatron,
FermilabBEC
212 Bmv k T
1
102
104
10-8
10-12
10-6
10-4
10-2
10-10
T(K)
1 mK
1 μK
1 nK
1 pK
Absolute
Zero
Surface of the Sun
LIEF
Liquid Nitrogen
Liquid Helium
Superfluid Helium
Coldest Helium
Laser Cooling
Bose-Einstein Condensation
Coldest Atoms? Ult
raco
ldre
gim
e
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UltracoldAtoms
Precision measurementTest of fundamental physics
atomic clockInertia sensing
Weak processes, dating
Quantum information science-Single atoms/Atomic ensemble/O.L.
-Laser control/CQED/collision-QM foundation
Plasma physicsCold plasma/Rydberg atom
Exotic state of matter
Condensed-matter physicsBEC/Degenerate Fermi gas
Superfluidity/superconductivityQuantum phase transition
Quantum simulation
Opto-mechanicsLaser cooling of mirror/mechanical oscillator
Coupling of cold atom withmacroscopic object
Quantum limitNovel condensed sys.
Cold moleculesPhoto-association/
Magnetic-associationCold chemistry
Condensed-matter withdipolar gases
Cold atoms:much more than just cool atomic physics
High phase space densityControlled atomic interactions:range, strength, sign, geometryApplication, and
popularizationto mesoscopic systems
Generalization of cooling Techniques to moleculesUltracold collisions and
transport effects
Low Doppler shiftLong observation timelong coherence time
higher sensitivity
Long coherence timeTotal ctrl over internal/external dof
Controlled atomic interactionsNon-classical state gen
Hybrid systemse.g. cold neutrals and ions
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UltracoldAtoms
Precision measurementTest of fundamental physics
atomic clockInertia sensing
Weak processes, dating
Quantum information science-Single atoms/Atomic ensemble/O.L.
-Laser control/CQED/collision-QM foundation
Plasma physicsCold plasma/Rydberg atom
Exotic state of matter
Condensed-matter physicsBEC/Degenerate Fermi gas
Superfluidity/superconductivityQuantum phase transition
Quantum simulation
Opto-mechanicsLaser cooling of mirror/mechanical oscillator
Coupling of cold atom withmacroscopic object
Quantum limitNovel condensed sys.
Cold moleculesPhoto-association/
Magnetic-associationCold chemistry
Condensed-matter withdipolar gases
Cold atoms:much more than just cool atomic physics
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How does lasers cooling work?
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Photons carry momentum: can be used to accelerate/decelerate an object
Laboratory applications:
1. Laser cooling2. Raman cooling3. Coherent control of
Motional D.O.F.
Manipulating atoms with light - I
iE
ikp
sE '
skp
'
0sk
kki
~ eVE
2 7( ) / 2 ~ 10 eVrE k m
3
. . ~ 25 10 eVR TE
g
e
Photon energy
Photon recoil energy
Thermal energy (@ 293K)
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Photons carry momentum: can be used to accelerate/decelerate an object
Laboratory applications:
1. Laser cooling2. Raman cooling3. Coherent control of
Motional D.O.F.
Manipulating atoms with light - I
iE
ikp
sE '
skp
'
0sk
kki
~ eVE
2 7( ) / 2 ~ 10 eVrE k m
3
. . ~ 25 10 eVR TE
g
e
Photon energy
Photon recoil energy
Thermal energy (@ 293K)
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carrier
•
•
•
01
2
00 1
xkx
Valid whenLamb-Dicke Parameter
ˆ
0
ˆ~1
ˆ ˆ1 ( ).
ikxe ikx
ikx a a
(Lamb-Dicke regime)
Let’s assume no spontaneous decay from
0 1,kx
ˆ ˆ ˆ ˆ~ (1 ( )) . .i t
IH e ik a a h c
ˆˆ ˆ . .i t ikx
IH e e h c
When
detuningred sideband
blue sidebandMotional sidebands {
01
2
g
e
Internal DOF(two-level sys)
External DOF(harmonic motion)
When external motional-states are spectroscopically resolved and quantized, light can be used to control the quantum states of the external degrees of freedom (DOF).
e
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1)(,β))δ2(1(
δ8
])δ(2[12
2
22
0
0
2
2
0
0
kvifv
s
vskF
kvs
skF
FFF
For a red-detuned (δ<0) laser, the force damps the velocity.
[/k]
Doppler shift kvv
fc
vD
λ
π2π2ω
Doppler cooling
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E
S=1
-1
0
mj
z
l
1
1
0
-1
S=0
mj
0
I
I
How to make a MOT?
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I
I
3D Monte-Carlo simulation of a MOT
Polarization:
Acceleration:
Saturationparameter:
Effective detuning:
Initial position: uniform distribution, initial velocity: Boltzmann distribution
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Demonstrated laser cooling of neutral atoms
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Demonstrated laser cooling of ionic atoms
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Magneto-Optical Trapping of Cadmium
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Demonstrated laser cooling of neutral atoms
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Textbook two-level atom
Possess intercombinationtransition lines
Lower Doppler limit temperature
atomic clock: Sr, Mg, Hg, Yb
EDM, T/CP violation: 225Ra, 199Hg
Trappable neutrals and ionsBuild a hybrid system
22
Intercombination lines: 1S0 - 3P00,1,2
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1S0
1P1
g/2 = 91 MHz
=229nm
Continuum
Large k=2/λ• Large linewidth• Photo-ionization
• Large Isat (1.0 W/cm2)• Large photon recoil acceleration (~50x Rb)• Large B-field gradients
I=0
~1.84 eV
300MHz
I=1/2
Cadmium overview
Even isotopes Odd isotopes
Continuum
106Cd,108Cd,110Cd,112Cd,114Cd,116Cd 111Cd,113Cd
=229nm
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DAVLL lock:Δν ~ 30 MHz ~ γ/31.5 GHz capture range
DA (sig. from Detector A)
DB (sig. from Detector B)
DB - DA
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Ti:sapph915.2 nm~1.2 W
LBO Doubler457.6 nm~200 mW
BBO Doubler228.8 nm~2 mW
532 nm10 W
To laser lock(DAVLL)
Expt
Cd vapor pressure P~10-11 Torr at 300K
Magnets
to CCDto CCD
Laser system:
Vacuum chamber:
laser
laser
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Permanent magnets give
large magnetic field gradients:
B’ ~ 300-1500 G/cm
Ion trap: Four-rod linear Paul trap
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•MOT Atom Number (N): ~10 – 10000•MOT Density: ~108 - 109 cm-3
•Beam waist (w0): 0.5 – 1.5 mm
•Beam power: 0.7 – 2.5 mW•Saturation parameter (s): 0.02 – 0.77•Magnetic field gradient (B’): 300 – 1200 G/cm•Gaussian cloud shape: temperature limited•Thus not density limited: two-body collision loss ignored
2
eff
dN NL N
dt V
In a vapor cell:
0eff PI
ss
eff
LN
C. Monroe, et. al, PRL 65, 1571 (1990)
eff ssL N
Cadmium MOT parameters
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PCd: ~10-11 Torr
PCd: ~10-10 Torr
Pr( , )PIPI
I I
2
/ 2Pr( , )
1 4( )
ss
s g
0eff PI
σPI: Photoionization cross-section from P state
D.N. Madsen, et. al, J. Phys. B 35, 2173 (2002)
Time (s)
Time (s)
Time (s)
Nss
-N
Ato
m N
um
be
rA
tom
Nu
mb
er
Dominant loss: photoionization
MOT growth rate independent of the
vapor pressure: one-body collision
loss is small and ignored.
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16 22 (1) 10 cmPI
Limited by intensity and detuning uncertainty
σPI: Photoionization cross-section from P state
0 PI
Pr( , )PIPI
I s
2
/ 2Pr( , )
1 4( )
ss
s g
/ ss I I
Photoionization cross-section
Consistent with the
previous assumption
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Optimum intensity is lower than that of typical MOTs due to photoionization
Large DAVLL capture range leads to uncertainty in detuning
Expt Data
3-D Monte Carlo1-D Analytical
Parameters:• w0=1.25 mm• δ=-0.6γ
• B’=500 G/cm
Parameters:• P=1.8 mW• w0=1.25 mm• B’ = 500 G/cm
Nss
Nss
Power / intensity:
Detuning:
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Optimal B-field gradientwhen Zeeman shift atbeam waist = linewidth
MOT size scales as(temperature-limited regime),but absolute size is ~10xDoppler-expected size
Similar results observed in Sr:X. Xu, et. al, PRA 66, 011401 (2002))
1/ 'B
Parameters:• P=1.8 mW• w0=1.25 mm• δ=-0.6γ
Expt Data
Doppler Theory
Expt Data
3-D Monte Carlo
Nss
MO
T D
iam
ete
r (m
icro
ns)
B’ (G/cm)
Magnetic field gradient
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Odd isotopes of Cd (I=1/2):
1S0
1P1
F=1/2
F=3/2
F=1/2
~300 MHz
g/2 = 91 MHz
Possible solutions:•Dichroic MOT•Operates in a very high B gradient (Paschen-Bach regime)•Large laser power with large red detuning
Similar results observed in Yb:H. Katori, et. al, PRL 82, 1116 (1999)
Odd vs. even isotopes
Linewidth ~ the 1P1 state hyperfine
splitting: bad for laser cooling.
MOT for odd isotopes were
not observed.
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V. Vuletic et al., Europhys. Lett., 36, 349 (1996)
AH coil w/ up to 400 AmpBut …bulkyneeds water coolingB’ up to <200 G/cm only
A pair of NdFeB magnetscompactB’ up to 1500 G/cm !But …not switchable
B’ up to 104 G/cmcompactswitchable
Improve Cd MOT: generate even higher B field gradient
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Nd:YVO4 Crystal Based RGB lasers
808 n
m
914 n
m
1064 n
m
1342 n
m
4F5/2 , 2H9/2
4F3/2
4I15/2
4I13/2
4I11/2
4I9/2
(1342, 1064, 914) nm x 2 (671, 532, 457) nm
Improve Cd MOT: generate higher laser power at 229 nm - I
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Single Mode 457 nm high power DPSS Laser for
Ultracold Atomic Physics
LD, 808 nm
Fiber
Coupling optics
Nd:YVO4
FilterEtalon
M3
M2
Blue laser
457 nm
M1
Q. H. Xue et al., Opt. Lett. v. 31, 1070 (2006)
s1
s2
s3
s4
Freq. doubling of the 457 nm output => a high power laser
at 229 nm.
Improve Cd MOT: generate higher laser power at 229 nm - II
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What can we do with a Cadmium MOT?
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1S0
1P1
/2 = 91 MHz
=229nm
3P0,1,2
~ 325 nm
/2 ~ 70 kHz
~ 332 nm
/2 ~ 0.8 mHz (113Cd)
Hg MOT & Opt Lattice ClockH. Hacish et al., PRL, 100, 053001 (2008)
Cadmium for an optical lattice clock?
1st MOT2nd MOT
Even better BBRS compared with 199Hg?
Currently lowest BBRS: 27Al+ ion.Δν/ν (T=300 K) ~ 8(3) ∙10-18
199Hg
~ 265.6 nm
/2 ~ 111 mHz
~ 253.7 nm
/2 ~ 1.3 MHz
Δν/ν (T=300 K) ~ -1.6∙10-16
Blackbody radiation shift
1S0 - 3P1 (2nd MOT)
1S0 - 3P0 (clock trans.)
BBRS better than Yb, Sr.
T. Rosenband et al., arXiv:physics/0611125
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Combining Cd neutrals and ions
Laser cooling work sat both 228.8 nm and 325 nm
2S1/2
2P3/2
|
|
g/2 = 60 MHz
14.53 GHz
=215nm
2 GHz
+
Laser cooling work s at 215 nm
MOTLinear Paul Trap
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S=0 neutrals
“hole”with spin
Cd+ ion
Cd MOT
Cd+Cd
e
Single ion and a MOT
Single ion and a single neutral atom
A B |A|B+|A|B
S=0
e
A B |A|B+|A|B ??
A B
C
C
Ensemble of Yb neutrals and ions:
A. Grier, et al. PRL 102, 223201 (2009)
• Transport effects– Ultracold charge-exchange collisions
– “Hole” transport through disordered media
– Ultracold Quantum chemistry
• Coherence-preserving charge exchange
Combining neutrals and ions
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Contradictory requirements
for neutral/ion traps:
MOT: large trap volume
Paul trap: prefer small trap volume in our case
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RF Electrode
RF Electrode
++
-
2 mm
4 mm
Yb MOT / ion surface trap: M. Cetina, et al. PRA 76, 041401(R) (2007)
++-
RF Electrode
++
-
2 mm
4 mm
Neutral-Ion hybrid-trap design
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Realized a magneto-optical trap for CadmiumMOT with extreme trapping parameters:
large linewidth, short wavelength, low laser power, PI loss
Determined photo-ionization cross-section
Characterized the data with 1D and 3D models
OutlookPossible research avenues in the future
Key enabling techniques for Cd MOT and proposed experiments
42
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PostdocsBoris Blinov
Paul Haljan
Winfried Hensinger
Peter Maunz
Ming-Shien Chang,
Dzmitry Matsukevich
UndergradsJacob Burress
Andrew Chew,
Dan Cook
David Hucul
Rudy Kohn
Elizabeth Otto
Mark YeoCollaboratorsVanderlei Bagnato (Sao Paolo)
Luming Duan (Michigan)
Jim Rabchuk (W. Illinois)
Keith Schwab (Cornell)
Grad StudentsKathy-Anne Brickman
Louis Deslauriers
Patricia Lee
Martin Madsen
David Moehring
Steven Olmschenk
Jon Sterk
Yisa Rumala
Daniel Stick
Kelly Younge
http://iontrap.physics.lsa.umich.edu/
Prof. Chris Monroe
![Page 39: Ming-Shien Chang Chang.pdf · 2016. 2. 19. · Lamb-Dicke Parameter ... Neutral-Ion hybrid-trap design. Realized a magneto-optical trap for Cadmium ... Determined photo-ionization](https://reader036.vdocuments.site/reader036/viewer/2022071404/60f7e9badcb2d579f9593b00/html5/thumbnails/39.jpg)
PostdocsBoris Blinov
Paul Haljan
Winfried Hensinger
Peter Maunz
Ming-Shien Chang,
Dzmitry Matsukevich
UndergradsJacob Burress
Andrew Chew,
Dan Cook
David Hucul
Rudy Kohn
Elizabeth Otto
Mark YeoCollaboratorsVanderlei Bagnato (Sao Paolo)
Luming Duan (Michigan)
Jim Rabchuk (W. Illinois)
Keith Schwab (Cornell)
Grad StudentsKathy-Anne Brickman
Louis Deslauriers
Patricia Lee
Martin Madsen
David Moehring
Steven Olmschenk
Jon Sterk
Yisa Rumala
Daniel Stick
Kelly Younge
http://iontrap.physics.lsa.umich.edu/
Prof. Chris Monroe
Maryland
http://www.iontrap. umd.edu/