Amplification of Optical Traveling Waves in Thin Slab Structure
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概要
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A novel theory of optical amplification on a traveling plasma wave along a thin semiconductor slab is proposed. Under common boundary conditions and constraints, drifting electronic space-charge waves and plasmons are phase-matched to couple with each other. The waves are hybridized to yield a traveling instability. With a perpendicular magnetic field, the Voigt dispersion anomaly strengthens the interaction. The amplification occurs in a wide wavelength range, from submillimeters (Terahertz) to near infrared (IR). Various applications of optical devices, including lasers, are suggested. On a concept of motional and spatial constraints, the effects of magnetization and waveguide are compared.
- Published by the Japan Society of Applied Physics through the Institute of Pure and Applied Physicsの論文
- 2005-06-15
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関連論文
- Traveling Wave Amplification on an Interface
- Amplification of Optical Traveling Waves in Thin Slab Structure