Condensed-phase optical refrigeration
Copyright policy )Condensed-phase optical refrigeration
We review progress on laser cooling of solids. The general process that enables cooling to occur is based on anti-Stokes fluorescence. Candidate materials for laser cooling are discussed, including gases, dyes, crystals, semiconductors, and ionically doped glasses. Cooling processes and necessary conditions for cooling are outlined, and general thermodynamic limitations are discussed. This is followed by a more detailed discussion of one specific material, ytterbium-doped ZBLAN, with consideration given to optimization of the laser cooling process and applications.
- University of Queensland Australia
- University of Queensland Australia
- University of Queensland Australia
Heat-transfer, Room-temperature, Laser, Optics, 240401 Optics and Opto-electronic Physics, C1, Doped Crystals, Frequency Up-conversion, Yb3+-doped Glasses, Quantum Efficiency, 780102 Physical sciences, 0206 Quantum Physics, Anti-stokes Fluorescence, Thermal Microscopy
Heat-transfer, Room-temperature, Laser, Optics, 240401 Optics and Opto-electronic Physics, C1, Doped Crystals, Frequency Up-conversion, Yb3+-doped Glasses, Quantum Efficiency, 780102 Physical sciences, 0206 Quantum Physics, Anti-stokes Fluorescence, Thermal Microscopy
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