Dharanipathy UP, Minkov M, Tonin M, Savona V, Houdré R. High - Q
silicon photonic crystal cavity for enhanced optical nonlinearities.Applied Physics Letters 08 September 2014.
Not exact matches
The absorber is attached to a
photonic crystal composed of a stack of
silicon and
silicon dioxide layers that begins to glow at such high temperatures.
Brown and Parker are now working on making the
photonic crystal out of
silicon, gallium arsenide or indium phosphide, which would allow them to integrate the antenna and electronics on the same chip.
EPFL scientists have now fabricated and experimentally tested a
silicon - based «
photonic crystal nanocavity» (PCN) that requires an unprecedentedly low amount of energy to operate as a switch.
The heat then flows into a
photonic crystal, which is composed of layers of
silicon and
silicon dioxide.