Add to ORKGThis thesis compiles recent achievements in optical refrigeration, cooling a 5 wt. % ytterbium doped yttrium lithium fluoride (Yb+3:YLF) crystal through anti-Stokes fluorescence to a new record low temperature. This is the coldest temperature to date, without the use of cryogens or mechanical refrigerators, and is achieved by taking advantage of the Stark manifold resonance and high doping concentration available in a crystalline host. Cooling to ∼155K from room temperature in a single stage with a cooling power of 90mW has been achieved, outperforming multi-stage Peltier coolers. Further cooling below the NIST-defined cryogenic temperature of 123K is shown feasible for for this record cooling sample given sufficient absorbed powe...
International audienceWe report on the optical cooling of a 7.5%Yb:LiYF4 crystal down to 125 K in a ...
Laser cooling in solids is based on anti-Stokes luminescence, via the annihilation of lattice phonon...
We demonstrate cooling of a 2 micron thick GaAs/InGaP double-heterostructure to 165 K from ambient u...
We have achieved cryogenic optical refrigeration with a record low temperature in optical refrigerat...
This dissertation compiles recent achievements in optical refrigeration, cooling a 10% wt. Ytterbium...
We review the field of laser cooling of solids, focusing our attention on the recent advances in cry...
Abstract: We present the first observation of cryogenic operation in an all-solid-state refrigerato...
Vibration-free cooling of detectors to cryogenic temperatures is critical for many terrestrial, airb...
We report on bulk optical refrigeration of Yb:YLF crystal to a temperature of ∼124 K, starting from ...
Laser radiation has been used to cool matter ranging from dilute gases to micromechanical oscillator...
Optical cooling of a YLF:Yb single crystal to 87 K, well below the minimum achievable temperature pr...
We measure the minimum achievable temperature (MAT) as a function of excitation wavelength in anti-S...
Over the past two and a half decades, advancements in the field of laser cooling of solids have prov...
We review progress on laser cooling of solids. The general process that enables cooling to occur is ...
Optical cooling of solids, relying on annihilation of lattice phonons via anti-Stokes fluorescence, ...
International audienceWe report on the optical cooling of a 7.5%Yb:LiYF4 crystal down to 125 K in a ...
Laser cooling in solids is based on anti-Stokes luminescence, via the annihilation of lattice phonon...
We demonstrate cooling of a 2 micron thick GaAs/InGaP double-heterostructure to 165 K from ambient u...
We have achieved cryogenic optical refrigeration with a record low temperature in optical refrigerat...
This dissertation compiles recent achievements in optical refrigeration, cooling a 10% wt. Ytterbium...
We review the field of laser cooling of solids, focusing our attention on the recent advances in cry...
Abstract: We present the first observation of cryogenic operation in an all-solid-state refrigerato...
Vibration-free cooling of detectors to cryogenic temperatures is critical for many terrestrial, airb...
We report on bulk optical refrigeration of Yb:YLF crystal to a temperature of ∼124 K, starting from ...
Laser radiation has been used to cool matter ranging from dilute gases to micromechanical oscillator...
Optical cooling of a YLF:Yb single crystal to 87 K, well below the minimum achievable temperature pr...
We measure the minimum achievable temperature (MAT) as a function of excitation wavelength in anti-S...
Over the past two and a half decades, advancements in the field of laser cooling of solids have prov...
We review progress on laser cooling of solids. The general process that enables cooling to occur is ...
Optical cooling of solids, relying on annihilation of lattice phonons via anti-Stokes fluorescence, ...
International audienceWe report on the optical cooling of a 7.5%Yb:LiYF4 crystal down to 125 K in a ...
Laser cooling in solids is based on anti-Stokes luminescence, via the annihilation of lattice phonon...
We demonstrate cooling of a 2 micron thick GaAs/InGaP double-heterostructure to 165 K from ambient u...