We examine the timing dependence of nanophotonic devices based on optical excitation transfer via optical near-field interactions at the nanometer scale.
We examine the timing dependence of nanophotonic devices based on optical excitation transfer via optical near-field interactions at the nanometer scale.
We examine the timing dependence of nanophotonic devices based on optical excitation transfer via optical near-field interactions at the nanometer scale.
Bibliographic details on Skew Dependence of Nanophotonic Devices Based on Optical Near-Field Interactions.
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Skew Dependence of Nanophotonic Devices Based on Optical Near-Field Interactions · M. NaruseF. Peper +4 authors. M. Ohtsu. Engineering, Physics. JETC. 2012.
We examine the timing dependence of nanophotonic devices based on optical excitation transfer via optical near-field interactions at the nanometer scale.
Quadrupole–dipole transform based on optical near-field interactions ... 2008. Skew dependence of nanophotonic devices based on optical near-field interactions.
We examine the timing dependence of nanophotonic devices based on optical excitation transfer via optical near-field interactions at the nanometer scale.
This chapter discusses system architectures for nanophotonics, taking into consideration the unique physical principles of optical near-field interactions, and ...
Aug 9, 2013 · Here we propose an efficient decision-making system which uses optical energy transfer between quantum dots (QDs) mediated by optical near-field interactions.