@inproceedings{d71588c7c1584a4ca8fa07466fc1570f,
title = "Compound semiconductor science and technology: A retrospective (electronics and photonics division award address)",
abstract = "From the earliest days, there has been interest in GaAs and other compound semiconductors due to higher electron mobility than silicon and suitability for optical applications. It was shown in 1962 that semiconductors such as silicon are not suitable for lasers and compound semiconductors were suggested. In the fall of 1962. several groups demonstrated semiconductor lasers under pulsed conditions at 77 K and double heterostructure (DH) laser diodes were achieved in 1970. Coinciding with major advances in fiber optics technology, this provided an enormous impetus for the development of compound semiconductor technology. Epitaxial crystal growth is a most important part of the technology. Liquid phase epitaxy was initially used but was replaced by vapor-phase and molecular beam epitaxy. MOCVD eventually became the vapor-phase technique of choice. Following a breakthrough in GaN technology in the 1990s, the impact of GaN technology is enormous and GaN-based LEDs are rapidly becoming the lighting technology of choice.",
author = "{Noel Buckley}, D.",
note = "Publisher Copyright: {\textcopyright} The Electrochemical Society.; Processes at the Semiconductor Solution Interface 7, PSSI 2017 - 231st ECS Meeting 2017 ; Conference date: 28-05-2017 Through 01-06-2017",
year = "2017",
doi = "10.1149/07704.0003ecst",
language = "English",
series = "ECS Transactions",
publisher = "Electrochemical Society Inc.",
number = "4",
pages = "3--11",
editor = "C. O'Dwyer and Buckley, {D. N.} and A. Etcheberry and A. Hillier and Lynch, {R. P.} and P. Vereecken and H. Wang and M. Sunkara",
booktitle = "Processes at the Semiconductor Solution Interface 7",
edition = "4",
}