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Optical cooling of a Yb-doped aluminophosphosilicate fiber in air by −250 mK
Chun Wei Chen
, Bailey Meehan
, Thomas W. Hawkins
, John Ballato
,
Peter D. Dragic
, Tommy Boilard
, Martin Bernier
, Michel J.F. Digonnet
Electrical and Computer Engineering
Micro and Nanotechnology Lab
Research output
:
Contribution to journal
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Article
›
peer-review
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Keyphrases
Cooling Efficiency
100%
Pumping Power
100%
Yb-doped
100%
Absorption Loss
100%
Background Absorption
100%
Optical Cooling
100%
Room Temperature
50%
Phosphorus
50%
Thermal Effect
50%
Silica Glass
50%
Heavily Doped
50%
Aluminosilicate
50%
Concentration Quenching
50%
Low Background
50%
Fiber Laser
50%
Silicate Fiber
50%
Pump Absorption
50%
Silica Fiber
50%
Quantum Defects
50%
Fiber Amplifier
50%
Anti-Stokes Fluorescence Cooling
50%
Quenching Concentration
50%
Few-mode Fiber
50%
Engineering
Metrics
100%
Pump Power
100%
Absorption Loss
100%
Room Temperature
50%
Amplifier
50%
Quenching
50%
Silica Fibre
50%
Thermal Effect
50%
Fiber Laser
50%
Fused Silica
50%
Mode Fiber
50%
Physics
Room Temperature
100%
Silica Glass
100%
Fiber Laser
100%