Wavelength dispersion phenomena observed for emitted optical radiation from a p+nn+ silicon avalanche mode light-emitting device in a radio frequency bipolar-integrated circuitry

Timothy A. Okhai; Lukas W. Snyman; Jean-Luc Polleux

doi:10.1117/1.OE.58.1.017104

18 January 2019 Wavelength dispersion phenomena observed for emitted optical radiation from a p+nn+ silicon avalanche mode light-emitting device in a radio frequency bipolar-integrated circuitry

Timothy A. Okhai, Lukas W. Snyman, Jean-Luc Polleux

Author Affiliations +

Optical Engineering, Vol. 58, Issue 1, 017104 (January 2019). https://doi.org/10.1117/1.OE.58.1.017104

Abstract

A two-junction micro p+np+ silicon avalanche-mode light-emitting device (Si AMLED) is analyzed for its dispersion characteristics, which generally resulted in different wavelengths of light (colors) being emitted at different angles from the surface of the device. The SiAMLED is integrated into on-chip bipolar radio frequency-integrated circuitry at micron dimensions. LEDs have high-frequency modulation frequencies reaching into the GHz range. Such devices, which are of micron dimension, operate at 8 to 10 V, 1 μA to 2 mA. The emission wavelength is in the 450- to 850-nm range, emission spot sizes are about 1 μm², and emission intensities are up to 200 nW . μm^− 2. The observed geometrical-chromatic dispersion characteristics range from 0.01 deg / nm wavelength for green radiation at a 5 deg exit angle to the normal of the device to 0.16 deg / nm wavelength for blue radiation at a 60 deg exit angle to the normal of the surface of the device. The high dispersion characteristics of the emitted radiation are attributed to the positioning of the optical source ∼1 μm subsurface to the silicon–silicon oxide interface, as well as to the high-refractive index differences between silicon and the surrounding lower refractive index silicon oxide layers. It is believed that the identified dispersion characteristics will have interesting and futuristic on-chip electro-optic applications for on-chip micro-optical wavelength dispersers, futuristic optical communication demultiplexers, along with on-chip microgas and biosensor applications.

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Timothy A. Okhai, Lukas W. Snyman, and Jean-Luc Polleux "Wavelength dispersion phenomena observed for emitted optical radiation from a p+nn+ silicon avalanche mode light-emitting device in a radio frequency bipolar-integrated circuitry," Optical Engineering 58(1), 017104 (18 January 2019). https://doi.org/10.1117/1.OE.58.1.017104

Received: 28 May 2018; Accepted: 11 December 2018; Published: 18 January 2019

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