Development of a Satellite-Based Cold Atom Clock · CGSIC, Miami, 9/16/2019 Development of a...
Transcript of Development of a Satellite-Based Cold Atom Clock · CGSIC, Miami, 9/16/2019 Development of a...
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CGSIC, Miami, 9/16/2019
Development of a Satellite-Based Cold Atom Clock
Liang Liu
Key Laboratory of Quantum Optics
Shanghai Institute of Optics and Fine Mechanics
Chinese Academy of Sciences
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OUTLINE
Shanghai Institute of Optics and Fine Mechanics
Chinese academy of sciences 中国科学院上海光学精密机械研究所
1. Introduction
2. Laser cooling in diffuse light
4. Compact cold atom clock
5. Conclusions
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OUTLINE
Shanghai Institute of Optics and Fine Mechanics
Chinese academy of sciences 中国科学院上海光学精密机械研究所
1. Introduction
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JPL’s Deep Space Atomic Clock
DSAC DU with the mercury ion trap configuration
29x26x23 cm, 16 kg, 50W, 1E-15/d
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Satellite-based atomic clock
What we need for satellite-based atomic clock:
Small size: <300x300x300 mm
Light weight: <20kg
Less power: <50W
Good performance:
• 1s: <2E-13
• 1day: <1E-15
• Drift: <1E-15
• Uncertainty: <1E-15
Besides Mercury ion clock, an atomic clock with laser cooled atoms
can reach the performance for next generation GNSS and deep space
exploration.
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Laser cooling of atoms
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Atomic foutain
Atoms are cooled at the bottom
Cold atoms are launched upwards by lasers
Cold atoms interact with microwave in the cavity
Cold atoms drop after they reach the top
Cold atoms interact with microwave again
Cold atoms are detected by laser
The signal feedback to microwave source
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Atomic foutain
Typical Ramsey fringes, Paris
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Atomic foutain
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Cold atom clock in space
Cold Atom Clock Experiment in Space, CACES, with Tiangong-2
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Cold atom clock in space
Typical Ramsey fringe. The launching velocity is (A) 3.15 m/s, (B) 1.69 m/s, (C) 0.78 m/s, corresponding to the width (A) 7.27 Hz, (B) 3.89 Hz, and (C) 1.80 Hz.
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OUTLINE
Shanghai Institute of Optics and Fine Mechanics
Chinese academy of sciences 中国科学院上海光学精密机械研究所
2. Laser cooling in diffuse light
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Diffuse deceleration of an atomic beam
W. Ketterle, et. al., Phys. Rev. Lett. 69, 2483 (1992)
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Diffuse deceleration of an atomic beam
H. Batelaan, et.al., Phys. Rev. A 49, 2780 (1994)
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Diffuse deceleration of an atomic beam
H.X. Chen, L. Liu and Y.Z. Wang, Acta Optica Sinica 14, 125 (1994)
Y.Z. Wang and L. Liu, Australian J. Phys. 48, 267 (1995)
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Laser cooling in an integrating sphere
Typical integrating sphere
Principle of laser cooling in an
integrating sphere
A new scheme of laser cooling is introduced in order to reduce the device size:
diffuse laser cooling
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Laser cooling of atoms in diffuse light
E. Guillot, et al., Opt. Lett. 26, 1639 (2001), Cs
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Laser cooling of atoms in diffuse light
H.D. Cheng, et al., Phys. Rev. A 79, 023407 (2009), Rb
-0.003 -0.002 -0.001 0.000 0.001 0.002 0.003
0.0
0.5
1.0
1.5
2.0
2.5
3.0
F'=3
F'=2
Inte
nsi
ty
Frequency
F'=1
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Laser cooling of atoms in diffuse light
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Laser cooling of atoms in diffuse light
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Laser cooling of atoms in diffuse light
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Controlling the distribution of atomic density
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Controlling the distribution of atomic density
Controlling distribution of cold atom density in a spherical cavity
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Controlling the distribution of atomic density
Controlling distribution of cold atom density in a cylindrical cavity
Axial Radial
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OUTLINE
Shanghai Institute of Optics and Fine Mechanics
Chinese academy of sciences 中国科学院上海光学精密机械研究所
3. Compact cold atom clock
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Atomic clock with diffuse laser cooled atoms
A Pulsed Optically Pumped (POP)
scheme with diffuse laser cooled
atoms in an integrating sphere
(ISCAC)
A Pulsed Optically Pumped (POP) scheme:
optical pumping, interrogation and detection
are separate to avoid light shift.
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Atoms
Cs Rb
Atom 133Cs 87Rb
Microwave frequency 9.192632 GHz 6.834682 GHz
D2 line F=2 F=1
Melting temperature 28.84 ℃ 38.89 ℃
Cooling laser wavelength 852.356 nm 780.241 nm
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Atomic clock with diffuse laser cooled atoms
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Microwave cavity
HORACE, Paris ISCAC, Shanghai
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Atoms
36.3cm
34cm
Engineering model
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Clock signals
Rabi oscillationRamsey fringe with
linewidth 20 Hz
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Clock signals
Ramsey fringe with
linewidth 13.5 Hz
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ISCAC stability
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ISCAC stability
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OUTLINE
Shanghai Institute of Optics and Fine Mechanics
Chinese academy of sciences 中国科学院上海光学精密机械研究所
4. Conclusions
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Cold atom clock in microgravity
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Cold atom clock in microgravity
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Cold atom clock in microgravity
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Flight model
Flight model of ISCAC
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Stability of atomic clocks
ISCAC
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Thanks for attention