Title :
Silicon LEDs fabricated in standard VLSI technology as components for all silicon monolithic integrated optoelectronic systems
Author :
Du Plessis, Monuko ; Aharoni, Herzl ; Snyman, Lukas W.
Author_Institution :
Dept. of Electr., Electron. & Comput. Eng., Univ. of Pretoria, South Africa
Abstract :
It is shown that, by using conventional VLSI design rules and device processing, a variety of two terminal and multiterminal integrated silicon light-emitting devices (Si-LEDs) can be routinely fabricated without any adaptation to the process, enabling the production of all-silicon monolithic optoelectronic systems. Their specific performance can be tailored by their different geometries and structures, yielding, by design, area, line, and point light-emitting patterns. The light-generating mechanisms are based on carrier quantum transitions in Si pn junctions, operated in the field emission or avalanche modes. Field emission Si-LEDs can operate at supply voltages compatible with those of integrated circuits (5 V or less). Avalanche Si-LEDs require higher operating voltages, but yield higher light intensities. The two terminal Si-LEDs yield a linear relation between the emitted light intensity and the driving current. The multiterminal Si-LEDs exhibit a nonlinear relation between the light emission intensity and the controlling electrical signal, enabling signal processing operations, which can not be attained in two terminal Si-LEDs. Two basic structures of multi terminal Si-LEDs are presented, i.e MOS-like structures, or carrier injection based structures (BJT-like devices). They possess different input impedances and both their emitted light intensities and emitting area patterns can be controlled by the input electrical signal.
Keywords :
VLSI; integrated circuit technology; integrated optoelectronics; light emitting diodes; silicon; 5 V; MOS-like structures; Si; all silicon monolithic integrated optoelectronic systems; all-silicon monolithic optoelectronic systems; avalanche modes; carrier injection based structures; carrier quantum transitions; controlling electrical signal; device processing; driving current; emitted light intensities; emitting area patterns; field emission modes; geometries; input electrical signal; light-generating mechanisms; linear relation; multi terminal Si-LEDs; multiterminal integrated silicon light-emitting devices; nonlinear relation; operating voltages; point light-emitting patterns; silicon LEDs; standard VLSI technology; structures; supply voltages; two terminal integrated silicon light-emitting devices; Computational geometry; Integrated circuit yield; Integrated optoelectronics; Light emitting diodes; Lighting control; Production systems; Signal processing; Silicon; Very large scale integration; Voltage;
Journal_Title :
Selected Topics in Quantum Electronics, IEEE Journal of
DOI :
10.1109/JSTQE.2002.806697
