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Results:
1-14
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Results: 14
Authors:
Huber, ME
Neil, PA
Benson, RG
Burns, DA
Corey, AM
Flynn, CS
Kitaygorodskaya, Y
Massihzadeh, O
Martinis, JM
Hilton, GC
Citation: Me. Huber et al., DC SQUID series array amplifiers with 120 MHZ bandwidth (Corrected), IEEE APPL S, 11(2), 2001, pp. 4048-4053
Authors:
Rabin, MW
Hilton, GC
Martinis, JM
Citation: Mw. Rabin et al., Application of microcalorimeter energy measurement to biopolymer mass spectrometry, IEEE APPL S, 11(1), 2001, pp. 242-247
Authors:
Deiker, S
Chervenak, J
Hilton, GC
Irwin, KD
Martinis, JM
Nam, S
Wollman, DA
Citation: S. Deiker et al., Transition edge sensor array development, IEEE APPL S, 11(1), 2001, pp. 469-472
Authors:
Hilton, GC
Martinis, JM
Irwin, KD
Bergren, NF
Wollman, DA
Huber, ME
Deiker, S
Nam, SW
Citation: Gc. Hilton et al., Microfabricated transition-edge x-ray detectors, IEEE APPL S, 11(1), 2001, pp. 739-742
Authors:
Huber, ME
Neil, PA
Benson, RG
Burns, DA
Corey, AM
Flynn, CS
Kitaygorodskaya, Y
Massihzadeh, O
Martinis, JM
Hilton, GC
Citation: Me. Huber et al., DC SQUID series array amplifiers with 120 MHz bandwidth, IEEE APPL S, 11(1), 2001, pp. 1251-1256
Authors:
Rabin, MW
Hilton, GC
Martinis, JM
Citation: Mw. Rabin et al., Application of ion-impact energy measurement to electrospray ionization mass spectrometry of proteins and protein mixtures, J AM SOC M, 12(7), 2001, pp. 826-831
Authors:
Newbury, DE
Wollman, DA
Hilton, GC
Irwin, KD
Bergren, NF
Rudman, DA
Martinis, JM
Citation: De. Newbury et al., The approaching revolution in X-ray microanalysis: The microcalorimeter energy dispersive spectrometer, J RAD NUCL, 244(3), 2000, pp. 627-635
Authors:
Benford, DJ
Allen, CA
Chervenak, JA
Freund, MM
Kutyrev, AS
Moseley, SH
Shafer, RA
Staguhn, JG
Grossman, EN
Hilton, GC
Irwin, KD
Martinis, JM
Nam, SW
Reintsema, OD
Citation: Dj. Benford et al., Multiplexed readout of superconducting bolometers, INT J INFRA, 21(12), 2000, pp. 1909-1916
Authors:
Martinis, JM
Hilton, GC
Irwin, KD
Wollman, DA
Citation: Jm. Martinis et al., Calculation of T-c in a normal-superconductor bilayer using the microscopic-based Usadel theory, NUCL INST A, 444(1-2), 2000, pp. 23-27
Authors:
Wollman, DA
Nam, SW
Newbury, DE
Hilton, GC
Irwin, KD
Bergren, NF
Deiker, S
Rudman, DA
Martinis, JM
Citation: Da. Wollman et al., Superconducting transition-edge-microcalorimeter X-ray spectrometer with 2eV energy resolution at 1.5 keV, NUCL INST A, 444(1-2), 2000, pp. 145-150
Authors:
Irwin, KD
Hilton, GC
Martinis, JM
Deiker, S
Bergren, N
Nam, SW
Rudman, DA
Wollman, DA
Citation: Kd. Irwin et al., A Mo-Cu superconducting transition-edge microcalorimeter with 4.5 eV energy resolution at 6 keV, NUCL INST A, 444(1-2), 2000, pp. 184-187
Authors:
Olsen, J
Kirk, EC
Thomsen, K
van den Brandt, B
Lerch, P
Scandella, L
Zehnder, A
Mango, S
Ott, HR
Huber, M
Hilton, GC
Martinis, JM
Citation: J. Olsen et al., First steps towards small arrays of Mo/Au microcalorimeters, NUCL INST A, 444(1-2), 2000, pp. 253-256
Authors:
Wollman, DA
Nam, SW
Hilton, GC
Irwin, KD
Bergren, NF
Rudman, DA
Martinis, JM
Newbury, DE
Citation: Da. Wollman et al., Microcalorimeter energy-dispersive spectrometry using a low voltage scanning electron microscope, J MICROSC O, 199, 2000, pp. 37-44
Authors:
Hilton, GC
Wollman, DA
Irwin, KD
Dulcie, LL
Bergren, NF
Martinis, JM
Citation: Gc. Hilton et al., Superconducting transition-edge microcalorimeters for X-ray microanalysis, IEEE APPL S, 9(2), 1999, pp. 3177-3181
Risultati:
1-14
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