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7 March 2016 Raman cooling in silicon photonic crystals
Yin-Chung Chen, Gaurav Bahl
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Proceedings Volume 9765, Optical and Electronic Cooling of Solids; 97650O (2016) https://doi.org/10.1117/12.2213912
Event: SPIE OPTO, 2016, San Francisco, California, United States
Abstract
Laser cooling of solids can be achieved through various photon up-conversion processes including anti-Stokes photoluminescence and anti-Stokes light scattering. While it has been shown that cooling using photoluminescence-based methods can achieve efficiency comparable to that of thermoelectric cooling, the reliance on specific transitions of the rare-earth dopants limits material choice. Light scattering, on the other hand, occurs in all materials, and has the potential to enable cooling in most materials. We show that by engineering the photonic density of states of a material, one can suppress the Stokes process, and enhance the anti-Stokes radiation. We employ the well-known diamond-structured photonic crystal patterned in crystalline silicon to demonstrate theoretically that when operating within a high transparency regime, the net energy removal rate from phonon annihilation can overcome the optical absorption. The engineered photonic density of states can thus enable simultaneous cooling of all Raman-active phonon modes and the net cooling of the solid.
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Yin-Chung Chen and Gaurav Bahl "Raman cooling in silicon photonic crystals", Proc. SPIE 9765, Optical and Electronic Cooling of Solids, 97650O (7 March 2016); https://doi.org/10.1117/12.2213912
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KEYWORDS
Raman scattering
Scattering
Photonic crystals
Phonons
Crystals
Raman spectroscopy
Solids
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