Energy-efficient superconducting computing—power budgets and requirements DS Holmes, AL Ripple, MA Manheimer IEEE Transactions on Applied Superconductivity 23 (3), 1701610-1701610, 2013 | 563 | 2013 |
Superconducting Computing in Large-Scale Hybrid Systems DS Holmes, AM Kadin, MW Johnson Computer 48 (12), 34-42, 2015 | 62 | 2015 |
Metal oxy-nitride resistance films and methods of making the same PR Swinehart, SS Courts, DS Holmes US Patent 5,367,285, 1994 | 37 | 1994 |
Superconducting Bi‐Ca‐Sr‐Cu oxide thin films by spray pyrolysis of metal acetates DF Vaslow, GH Dieckmann, DD Elli, AB Ellis, DS Holmes, A Lefkow, ... Applied physics letters 53 (4), 324-326, 1988 | 33 | 1988 |
On the elimination of Kirkendall voids in superconducting composites S Cogan, DS Holmes, RM Rose Applied Physics Letters 35 (7), 557-559, 1979 | 32 | 1979 |
He II flowmetering SW Van Sciver, DS Holmes, X Huang, JG Weisend II Cryogenics 31 (2), 75-86, 1991 | 26 | 1991 |
Attenuation of second sound in bulk flowing He II DS Holmes, SW Van Sciver Journal of low temperature physics 87 (1), 73-93, 1992 | 25 | 1992 |
Resolution and accuracy of cryogenic temperature measurements DS Holmes, SS Courts Temperature: Its Measurement and Control in Science and Industry 6 (part 2 …, 1992 | 23 | 1992 |
Evaluation of III–V multilayer transport parameters using quantitative mobility spectrum analysis J Antoszewski, JM Dell, L Faraone, LS Tan, A Raman, SJ Chua, ... Materials Science and Engineering: B 44 (1-3), 65-69, 1997 | 20 | 1997 |
Cryogenic thermometry—an overview SS Courts, DS Holmes, PR Swinehart, BC Dodrill Applications of cryogenic technology 10, 55-69, 1991 | 17 | 1991 |
Thermal resistances of cryogenic temperature sensors from 1-300 K SS Courts, WE Davenport, DS Holmes Advances in cryogenic engineering 45, 1849-1856, 2000 | 14 | 2000 |
Effects of cryogenic irradiation on temperature sensors SS Courts, DS Holmes Advances in Cryogenic Engineering: Part A, 1707-1714, 1996 | 13 | 1996 |
Non-normal Critical Current Distributions in Josephson Junctions With Aluminum Oxide Barriers DS Holmes, J McHenry IEEE Transactions on Applied Superconductivity 27 (4), 1100605, 2016 | 12 | 2016 |
Microfilamentary superconducting composites by the external diffusion method: Nb< inf> 3</inf> Sn SF Cogan, DS Holmes, RM Rose Journal of Applied Physics 51 (8), 4332-4337, 1980 | 12 | 1980 |
Thermal resistances of mounted cryogenic temperature sensors DS Holmes, SS Courts Advances in Cryogenic Engineering: Part A, 1699-1706, 1996 | 11 | 1996 |
Neutron and gamma radiation effects on cryogenic temperature sensors SS Courts, DS Holmes, PR Swinehart Temperature, It’s Measurement and Control in Science and Industry 6, 1237, 1992 | 11 | 1992 |
Superconductor Electronics and the International Roadmap for Devices and Systems DS Holmes, EP DeBenedictis 16th International Superconductive Electronics Conference (ISEC), 2017 | 10 | 2017 |
A thin film flowmeter for use in liquid helium II DS Holmes, SW Van Sciver Advances in Cryogenic Engineering: Part A & B, 247-254, 1990 | 8 | 1990 |
Electrical properties of Si1− x− yGexCy and Ge1− yCy alloys F Chen, RT Tröger, K Roe, MD Dashell, R Jonczyk, DS Holmes, ... Journal of electronic materials 26 (12), 1371-1375, 1997 | 7 | 1997 |
Radiation resistant cryogenic temperature sensor for the 4 K to 80 K range SS Courts, PR Swinehart, DS Holmes Lake Shore Cryotronics, Inc., Westerville, OH (United States), 1994 | 6 | 1994 |