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Bi-directional field effect light emitting and absorbing heterojunction with Ga0.8In0.2N0.015As0.985 at 1250 nm

Bi-directional field effect light emitting and absorbing heterojunction with Ga0.8In0.2N0.015As0.985 at 1250 nm

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The basic operation of a novel GaInNAs/GaAs based light emitting/absorbing device operating at 1250 nm is described. The device is a bi-directional field effect light emitting and absorbing heterojunction (BiFEEAH), which can simultaneously emit and detect light. This feature makes it possible to construct a wavelength converter, where one end of the device absorbs incoming light and the other end emits light at a different wavelength. The current device consists of a simple GaAs p–i–n structure, containing a single 90 Å GaInNAs quantum well in its intrinsic region. This is fabricated into a four contact device with separate n and p conducting channels.

Inspec keywords: gallium arsenide; gallium compounds; infrared detectors; photodetectors; semiconductor quantum wells; III-V semiconductors; p-n heterojunctions; light emitting devices; optical wavelength conversion; indium compounds

Other keywords: p conducting channels; GaInNAs/GaAs based light emitting/absorbing device; four contact device; Ga0.8In0.2N0.015As0.985; GaInNAs-GaAs; 1250 nm; light emitting devices; wavelength converter; GaInNAs quantum well; photodetectors; bi-directional field effect light emitting absorbing heterojunction; intrinsic region; bi-directional field effect light emitting and absorbing heterojunction; 90 angstrom; GaAs p-i-n structure; n conducting channels

Subjects: Optical properties of II-VI and III-V semiconductors (thin films, low-dimensional and nanoscale structures); Optical harmonic generation, frequency conversion, parametric oscillation and amplification; Detection of radiation (bolometers, photoelectric cells, i.r. and submillimetre waves detection); Photodetectors; Optical harmonic generation, frequency conversion, parametric oscillation and amplification; Electroluminescent devices; Semiconductor superlattices, quantum wells and related structures

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