Citations:cryotronics

English citations of cryotronics

• 1960, Technical News Bulletin‎^[1], volume 44, number 11, The Bureau, →LCCN, →OCLC, page 194:

  A concept of an airborne helium cryostat of high thermodynamic efficiency to be used in spaceborne cold sinks for deep cooling of cryotronics was described by G. A. Zotos (The Martin Co.) in a paper delivered at the session on applications Tuesday afternoon, August 23. Performance, potential, and reliability of the cryostat were discussed.

• 1962, AFIPS Conference Proceedings (volume 22, page 229)

  While cryotronics is, to some degree, a rather special technology, it has not been possible to show that cryogenic circuits possess, on balance, any functional advantages over circuits realizable in competitive technologies.

• 1962, Martin L Cohen, “Cryotronics: problems and promise”, in Proceedings of the December 4-6, 1962, fall joint computer conference‎^[2], pages 232–233:

  In the past few years cryotronic technology has matured to the point where one may reasonably discuss basic limitations and important engineering problems. The basic limitations stem from certain specifics of the technology, such as gain bandwidth products, impedance and signal levels and the required low-temperature environment.

• 1963, Marshall Sittig, Cryogenics: Research and Applications‎^[3], Van Nostrand, →LCCN, →OCLC, page 157:

  Cryogenic electronics — or cryotronics as it is sometimes called is concerned not only with this improved performance from low temperature operation, but also with phenomena which occur only at low temperatures.

• 2021, Shubham Umeshkumar Gupta, Ankit G Dalvaniya, Nashreen Faruk Patel, Sanjay A Bhakhar, Salil Nair, Jolly Joy, Kireetkumar D Patel, Gunvant K Solanki, Vivek M Pathak, Narayan N Som, “Optical Switching Device Based on a Crystalline SnSe2 Photodetector in Diverse Conditions”, in ACS Applied Electronic Materials‎^[4], volume 3, number 11, ACS Publications, →ISSN, pages 4859–4869:

  As per investigation, the remarkable properties of SnSe₂ single crystals such as reproducibility, steadiness, self-biased nature, ability to withstand and responding to the illumination even at a low temperature of 10 K make them a strong candidate for future optoelectronic switching applications for cryotronics.