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Special CPM SeminarHeat transfer and energy conversion using near-field thermal radiationRaphaël St-GelaisCornell University & Columbia UniversityThermal radiation between surfaces separated by deep sub-wavelength distances can overcome the classical far-field radiation limit (i.e., Stefan-Boltzmann law) by several orders of magnitude, while being concentrated on a narrow frequency distribution. These unique characteristics could enable breakthrough technologies for thermal transport control and electricity generation (i.e., by radiating heat exactly at the bandgap frequency of a photovoltaic cell). I will review the physics behind heat transfer in this regime and the exciting new opportunity of near-field thermophotovoltaic electricity generation. I will also present our recent work [1,2] in which we use MEMS (micro-electromechanical systems) to precisely control the position of nanostructures, allowing us to achieve the first experimental demonstration of heat transfer in the regime required for near-field thermophotovoltaics (i.e. sub-100 nm separation and large thermal gradient).
[1] Raphael St-Gelais, Linxiao Zhu, Shanhui Fan, and Michal
Lipson, “Near-field radiative heat transfer between parallel structures
in the deep sub-wavelength regime&rdquo, Accepted in Nature Nanotechnology
2016, ArXiV preprint:
http://arxiv.org/abs/1509.08005
Tuesday, March 15th 2016, 11:00
Ernest Rutherford Physics Building, R.E. Bell Conference Room (room 103) |