jila, nist & university of colorado€¦ · jila, nist & university of colorado optical...
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![Page 1: JILA, NIST & University of Colorado€¦ · JILA, NIST & University of Colorado Optical Atomic Clock & Absolute-Zero Chemistry – Probing Quantum Matter with Precision Light Many-body](https://reader035.vdocument.in/reader035/viewer/2022062302/5edda7c0ad6a402d6668ce7d/html5/thumbnails/1.jpg)
MURI 25th Birthday, Washington DC, Nov. 9, 2011
Jun Ye
JILA, NIST & University of Colorado
Optical Atomic Clock & Absolute-Zero Chemistry – Probing Quantum Matter with Precision Light
Many-body quantum systems Optical atomic clocks
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(Peter Reynolds) ONR/MURI, 2001
Optical Clocks: Fundamental aspects,
practical issues and enabling technology
Bergquist, Cundiff, Delfyett, Diels, Gibble, Hall, Hollberg, Jones,
Kapteyn, Kimble, Ye (PI)
JILA/Colorado, Caltech, Central Florida, New Mexico, NIST, Penn State
Outside Collaborations
MIT (the other MURI team)
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Clocks are everywhere
Fiber-Laser
Comb
Transmit Fiber
Length
Metrology
Fundamental and Applied Science
Tele-
communications Standards for
Industry
ESA satellite to
satellite comm
Space exploration, Defense & Homeland security
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Spectrum in optical frequency synthesis
Log
Frequency
(Hz)
107
1010
1011
1012
1013
1014
1015
Crystal oscillator
(rf timer)
Cs
HCOOH HCN
CH3OH
H2O CO2 OsO4
CH4
Visible Molecular
overtone Rb, Cs
I2 Ca H, Hg+
Laser
Microwave
oscillators,
Klystrons,
etc.
MIM or
Schottky
diode
W-Si
mwave
diode
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Spectrum in optical frequency synthesis
Log
Frequency
(Hz)
107
1010
1011
1012
1013
1014
1015
Crystal oscillator
(rf timer)
Cs
HCOOH HCN
CH3OH
H2O CO2 OsO4
CH4
Visible Molecular
overtone Rb, Cs
I2 Ca H, Hg+
Laser
Microwave
oscillators,
Klystrons,
etc.
MIM or
Schottky
diode
W-Si
mwave
diode
Harmonic frequency chains – NRC; PTB; …
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An Optical Frequency Chain NBS (NIST): measurement of speed of light, 1972
J. Wells
Hall & Ye, “NIST 100th birthday”, Optics & Photonics News 12, 44 (2001).
K. Evenson
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The age of atomic clocks - Chasing the SPEED!
Faster oscillations More cycles Smaller errors
Precision: 1 000 000 000 000 000 ± 1
Light ripples: 1015 cycles per second, & we count every one
~1 bacteria length out of the Sun-Earth distance
Earth Sun bacteria
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Long-term optical coherence ( 1 s)
-6 -4 -2 0 2 4 6 8 10
0
1
2
3
Lin
ear
Sig
na
l (a
. u
.) Optical
linewidth:
250 mHz
Hz
Ludlow et al., Opt. Lett. 32, 641 (2007).
Laser 2
Cavity 2 Cavity 1
Laser 1
Beat between two independent lasers
10 s
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A rainbow spectrum with 10-19 precision
Optical
freq. Radio
freq.
Hall and Hänsch, 2005 Nobel Prize Optical frequency comb
Cundiff and Ye, Rev. Mod. Phys. 75, 325 (2003).
Optical coherence time > 1 s (<10-15), anywhere in the visible Schibli et al., Nature Photonics 2, 355 (2008).
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A rainbow spectrum with 10-19 precision
Optical
freq. Radio
freq.
Hall and Hänsch, 2005 Nobel Prize Optical frequency comb
Cundiff and Ye, Rev. Mod. Phys. 75, 325 (2003).
-1.0 -0.5 0.0 0.5 1.0
-1.0
-0.5
0.0
0.5
1.0
Data: TEK00000_B
Model: user1
Weighting:
Y No weighting
Chi^2/DoF = 6.43322
R^2 = -0.64257
a0 2.87 ±0
a1 4.8 ±0
a2 93.63961 ±0.00497
a3 10.3 ±0
b -0.07 ±0
sign
al a
mpl
itude
(arb
. uni
ts)
time (s)
Counting the light ripple
Optical coherence time > 1 s (<10-15), anywhere in the visible Schibli et al., Nature Photonics 2, 355 (2008).
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A rainbow spectrum with 10-19 precision
Optical
freq. Radio
freq.
Hall and Hänsch, 2005 Nobel Prize Optical frequency comb
Cundiff and Ye, Rev. Mod. Phys. 75, 325 (2003).
Optical coherence time > 1 s (<10-15), anywhere in the visible Schibli et al., Nature Photonics 2, 355 (2008).
Radio frequency Light
106 :1 Reduction Gear
Light
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Optical atomic clocks
Ultrastable laser
optical comb optical frequency counter
Sr atoms
Oscillator
Counter
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Optical lattice – a many-body quantum system
Engineered quantum states eliminating motional effects
Separation of internal and external degrees of freedom
Isolation from environment
Long coherence times
Large atom numbers to increase signal and accuracy
1D L
attice
2D Lattice
3D
Science 331, 1043 (2011)
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JILA Sr atomic clock
10, 000, 000, 000, 000, 000 ± 1 (10-16)
Science 314, 1430 (2006); Science 319, 1805 (2008); Science 320, 1734 (2008);
Science 324, 360 (2009); Science 331, 1043 (2011).
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JILA Sr atomic clock
10, 000, 000, 000, 000, 000 ± 1 (10-16)
1 10 100 1000 1000010
-17
10-16
10-15
tota
l devia
tion
time (s)
Sr – Yb standards
Ludlow / Time & Freq.
Definition of SI “SECOND”
Science 314, 1430 (2006); Science 319, 1805 (2008); Science 320, 1734 (2008);
Science 324, 360 (2009); Science 331, 1043 (2011).
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Precise distribution of ultra-stable signals
Foreman, Holman, Hudson, Jones, and Ye, Cover Review, Rev. Sci. Instrum. 78, 021101 (2007).
100 km fiber: 1 x 10-17 @ 1 s; 1 Hz optical linewidth; 0.1 fs jitter (20 MHz BW)
SYRTE, NIST, …
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Phase-coherent radiations – IR to XUV - Spectroscopy & Quantum Control
Phase-coherent synthesis of the electromagnetic spectrum
Ar: 82 nm
2170 2200 2230 2260
-1
-0.5
0
0.5
1
x 10-3
HITRAN database
2700 2800 2900 3000
-1
0
1
x 10-3
NWIR database
2850 2900 2950 3000 3050 3100
-5
0
5
x 10-4
NWIR database
2900 2950 3000 3050 3100 3150
-2
0
2
x 10-4
HITRAN database
2900 2950 3000 3050 3100 3150
-5
0
5
x 10-5
NWIR database
3300 3350 3400 3450 3500
-5
0
5
x 10-4
HITRAN database
N2O, 9 ppm, 100 torr, 0.014 cm-1 (a) H2CO, 58 ppm, 600 torr, 0.014 cm-1 (b)
C2H6, 11 ppm, 600 torr, 0.096 cm-1 (c) CH4, 10 ppm, 100 torr, 0.0056 cm-1 (d)
C5H8, 16 ppm, 600 torr, 0.058 cm-1 (e) N2O, 142 ppm, 600 torr, 0.026 cm-1 (f )
Ab
sorb
an
ce (cm
-1)
Ab
sorb
an
ce (cm
-1)
Ab
sorb
an
ce (cm
-1)
Wavenumber (cm-1) Wavenumber (cm
-1)
cm-1
Nature, in press (2011).
Extreme Ultraviolet
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Phase-coherent radiations – IR to XUV - Spectroscopy & Quantum Control
Phase-coherent synthesis of the electromagnetic spectrum
Ar: 82 nm
2170 2200 2230 2260
-1
-0.5
0
0.5
1
x 10-3
HITRAN database
2700 2800 2900 3000
-1
0
1
x 10-3
NWIR database
2850 2900 2950 3000 3050 3100
-5
0
5
x 10-4
NWIR database
2900 2950 3000 3050 3100 3150
-2
0
2
x 10-4
HITRAN database
2900 2950 3000 3050 3100 3150
-5
0
5
x 10-5
NWIR database
3300 3350 3400 3450 3500
-5
0
5
x 10-4
HITRAN database
N2O, 9 ppm, 100 torr, 0.014 cm-1 (a) H2CO, 58 ppm, 600 torr, 0.014 cm-1 (b)
C2H6, 11 ppm, 600 torr, 0.096 cm-1 (c) CH4, 10 ppm, 100 torr, 0.0056 cm-1 (d)
C5H8, 16 ppm, 600 torr, 0.058 cm-1 (e) N2O, 142 ppm, 600 torr, 0.026 cm-1 (f )
Ab
sorb
an
ce (cm
-1)
Ab
sorb
an
ce (cm
-1)
Ab
sorb
an
ce (cm
-1)
Wavenumber (cm-1) Wavenumber (cm
-1)
cm-1
Nature, in press (2011).
Extreme Ultraviolet
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Thorpe et al., Science 311, 1595 (2006). Chem. Rev. 2010; Phys. Rev. Lett. 2011.
Direct Frequency Comb Spectroscopy
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Bohn Jin Ye
Eyler Gould
Stwalley
Yelin (PI)
Chuang Côté
DeMille
Kotochigova
Ketterle Doyle
Demler
AFOSR MURI - Cold Molecules
(2009)
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Ultracold gases
Precise control of a quantum system
applications:
quantum computing
atomic clocks
precision measurements
cold-atom-based sensors
Control: A tool for understanding complexity.
Build up strongly correlated many-body quantum systems
• Fermi superfluidity
• fermions or bosons in an optical lattice
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Extend our capability to control quantum systems
What’s new (compared to ultracold atoms)?
New internal degrees of freedom
vibration, rotation
Chemistry
Long-range interactions
Why polar molecules?
E Exotic
quantum
matter
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Atom vs. molecule
T = 100 nK
N = 106 atoms
n = 1013 cm-3
Bose-Einstein Condensation
1995
Molecules:
T = 100 mK, n = 106 cm-3
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Molecules are complex!
6000 K
0.1 K 38 μK 100 K
10 orders of magnitude
1010 108 105 102 1
200 nK
Ultracold molecules: The challenge
vibration
binding
energy
rotation hyperfine translation
1 μK
trap depth
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Quantum gas of polar molecules
40K Fermions 87Rb Bosons
Science 322, 231 (2008)
Science 327, 853 (2010) Nature 464, 1324 (2010)
Debbie Jin J. Ye
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Light provides the answer
Photons carry away the energy!
Laser light
Laser light
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Chemistry near absolute zero (1) Molecules behave like waves
(2) Angular momentum is quantized
(3) Quantum statistics matter
Fermions c L = 1, p-wave collisions
s p d
0 1ħ 2ħ
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New quantum phases and dynamics
E
E
• Correlated Fermi pairs
• Bi-layer Bose condensation?
• Super solids?
• … …
Zoller, Demler, Santos, … …
Revolution ongoing !
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Over the years … F. Adler (NIST) S. Blatt (Harvard) J. Bochinski (Faculty, NC State) M. Boyd (AO Sense, industry) G. Campbell (Faculty, U. Maryland) L. Chen (Faculty, WIPM) S. Foreman (Stanford U.) K. Holman (Staff, Lincoln Lab) E. Hudson (Faculty, UCLA) T. Ido (Senior staff, Tokyo NICT) D. Jones (Faculty, UBC) J. Jones (Faculty, U. Arizona) Y. Lin (Staff, Nat. Inst. Metrology) T. Loftus (AO Sense, industry) H. Lewandowski (Faculty, U. Colorado) A. Ludlow (Scientist, NIST) K. Moll (Precision Photon., industry) M. Notcutt (ATF, industry)
B. Lev (Faculty, Stanford U.) S. Ospelkaus (Faculty, U. Hannover) A. Pe’er (Faculty, Bar-Ilan U.) B. Sawyer (NIST) T. Schibli (Faculty, U. Colorado) M. Stowe (Staff, Lincoln Lab) M. Thorpe (NIST) D. Wang (Faculty, U. Hong Kong) X. Xu (Faculty, ECNU) T. Yoon (Faculty, Korea Nat. U.) T. Zanon (Faculty, Univ. Paris) T. Zelevinsky (Faculty, Columbia U.) & current group members … …
http://JILA.Colorado.edu/YeLabs