Sorab K. Ghandhi Explained

Sorab K Ghandhi
Birth Date:1 January 1928
Birth Place:Allahabad, United Provinces of British India, British Raj
(now in Uttar Pradesh, India)
Death Date:6 July 2018 (aged 90)
Death Place:Escondido, California, United States
Occupation:Professor Emeritus at Rensselaer Polytechnic Institute
Spouse:Cecilia M. Ghandhi
Children:Khushro, Rustom, Behram
Alma Mater:University of Illinois

Sorab (Soli) K. Ghandhi (1 January 1928 - 6 July 2018) was a professor Emeritus at Rensselaer Polytechnic Institute (RPI) known for his pioneering work in electrical engineering and microelectronics education, and in the research and development of Organometallic Vapor Phase Epitaxy (OMVPE) for compound semiconductors. He was the recipient of the IEEE Education Award "For pioneering contributions to semiconductor and microelectronics education" in 2010.[1]

Education

Ghandhi was schooled at St. Joseph's College, Nainital, India, received his B.Sc. in electrical and mechanical engineering from Benares Hindu University in 1947, and his MS and Ph.D. in electronics from the University of Illinois in 1948 and 1951 respectively. He was a Zoroastrian by birth, and had three sons, Khushro, Rustom and Behram.

Career

While a member of the Advanced Circuits Group, General Electric Company, from 1951 to 1960, he co-authored the first books in the world on transistor circuits[2] and transistor circuit engineering[3] He was a manager of the Components Group at the Philco Corporation from 1960-1963. During this time, as Chairman of the IRE Standards on Graphical symbols, Task Group 28.4.8, he was instrumental in obtaining international adoption of the US-derived graphical symbol for Transistors and other Semiconductor devices.[4] He joined Rensselaer Polytechnic Institute (RPI) in 1963 as a professor of electrophysics, and was chairman from 1967 to 1974. He retired from RPI in 1992.

At RPI, he introduced microelectronics into the graduate studies curriculum and wrote a book on this subject.[5] This was the first book in the world to elucidate the necessary background required for an engineer to participate in the semiconductor industry. In addition to basic semiconductor physics, it covered topics such as Crystal Growth, Phase Diagrams, Diffusion, Oxidation, Epitaxy, Etching and Photolithography, which were not typical of the background of electrical engineers. Subsequently, this was followed by a book on semiconductor power devices,[6] in which he presented a comprehensive theory for second breakdown. Following the work of Manasevit in 1968,[7] he started the first university program on the OMVPE of compound semiconductors in 1970, and conducted research with his students in this area until retirement. This technology has become increasingly popular, and is now used in most modern optical devices such as lasers and light emitting diodes, transmitters and receivers for fiber optic communications and improved thermoelectric structures.

His research in OMVPE included the growth and characterization of GaAs,[8] InAs, GaInAs, InP, CdTe, HgCdTe and ZnSe materials and devices, which resulted in over 180 papers. Many of these were "firsts" in the field: the growth of GaInAs over the full range of compositions,[9] the use of homostructures for evaluating recombination in surface-free GaAs,[10] the use of halogen etching in GaAs,[11] the OMVPE growth of large area films of HgCdTe with highly uniform composition[12] and the p-type doping of this HgCdTe.[13]

Concurrent with his research activities, he also wrote two books on VLSI fabrication principles which included a comprehensive, unified treatment of Silicon and GaAs materials technology.[14] and a [15] These covered, for the first time, topics relevant to Compound Semiconductors, which are increasingly playing an important role in advanced semiconductor electro-optical and communication devices and systems.

Membership

Awards

Notes and References

  1. Web site: Sorab K. Ghandhi 1928 - 2018 . San Diego Union-Tribune . 6 January 2021.
  2. Principles of Transistor Circuits, (Ed.R.F. Shea). John Wiley and Sons. 1953. pp. 535.
  3. Transistor Circuit Engineering, (Ed.R.F. Shea). John Wiley and Sons. 1957. pp. 468
  4. http://www.ieeeghn.org/wiki/index.php/First-Hand:Saving_the_Transistor_Symbol) http://www.ieeeghn.org/wiki/index.php/First-Hand:Saving_the_Transistor_Symbol
  5. Theory and Practice of Microelectronics, John Wiley and Sons. 1968. pp.487.
  6. Semiconductor Power Devices, John Wiley and Sons. 1977.pp.329.
  7. Manasevit . H. M. . Simpson . W. I. . The use of Metal-Organics in the Preparation of Semiconductor Materials: I. Epitaxial Gallium-V Compounds . Journal of the Electrochemical Society . The Electrochemical Society . 116 . 12 . 1969 . 0013-4651 . 10.1149/1.2411685 . 1725. 1969JElS..116.1725M .
  8. Reep . D. H. . S.K. . Ghandhi. Deposition of GaAs Epitaxial Layers by Organometallic CVD . Journal of the Electrochemical Society . The Electrochemical Society . 130 . 3 . 1983 . 0013-4651 . 10.1149/1.2119780 . 675.
  9. Baliga . B. Jayant . Sorab K. . Ghandhi. Growth and Properties of Heteroepitaxial GaInAs Alloys on GaAs Substrates Using Trimethylgallium, Triethylindium, and Arsine . Journal of the Electrochemical Society . The Electrochemical Society . 122 . 5 . 1975 . 0013-4651 . 10.1149/1.2134292 . 683. 1975JElS..122..683J .
  10. Smith . L. M. . Wolford . D. J. . Venkatasubramanian . R. . Ghandhi . S. K. . Radiative recombination in surface‐free n+/n/n+ GaAs homostructures . Applied Physics Letters . AIP Publishing . 57 . 15 . 1990-10-08 . 0003-6951 . 10.1063/1.103357 . 1572–1574. 1990ApPhL..57.1572S .
  11. Bhat . Rajaram . S.K. . Ghandhi. The Effect of Chloride Etching on GaAs Epitaxy Using TMG and AsH3 . Journal of the Electrochemical Society . The Electrochemical Society . 125 . 5 . 1978 . 0013-4651 . 10.1149/1.2131546 . 771. 1978JElS..125..771B .
  12. Ghandhi . Sorab K. . Bhat . Ishwara B. . Fardi . Hamid . Organometallic epitaxy of HgCdTe on CdTeSe substrates with high compositional uniformity . Applied Physics Letters . AIP Publishing . 52 . 5 . 1988 . 0003-6951 . 10.1063/1.99476 . 392–394. 1988ApPhL..52..392G .
  13. Ghandhi . S. K. . Taskar . N. R. . Parat . K. K. . Terry . D. . Bhat . I. B. . Extrinsicp‐type doping of HgCdTe grown by organometallic epitaxy . Applied Physics Letters . AIP Publishing . 53 . 17 . 1988-10-24 . 0003-6951 . 10.1063/1.99936 . 1641–1643. 1988ApPhL..53.1641G .
  14. VLSI Fabrication Principles: Silicon and Gallium Arsenide, John Wiley and Sons. 1983. pp. 665.
  15. Completely Revised Edition, VLSI Fabrication Principles: Silicon and Gallium Arsenide, John Wiley and Sons. 1994. pp.834.
  16. Web site: IEEE - Fellow Class of 1965 . Institute of Electrical and Electronics Engineers (IEEE) . 2012-01-25 . dead . https://web.archive.org/web/20110629170658/http://www.ieee.org/membership_services/membership/fellows/chronology/fellows_1965.html . 2011-06-29 .
  17. Web site: IEEE Education Awards. https://web.archive.org/web/20101031193842/http://eds.ieee.org/education-award.html. dead. 31 October 2010. 1 April 2012.