Abstract:
As a consequence of the "image effect" the inductances of coils and superconducting devices do change. Calculations are performed with the help of commercial software bas...Show MoreMetadata
Abstract:
As a consequence of the "image effect" the inductances of coils and superconducting devices do change. Calculations are performed with the help of commercial software based on the finite element method. The results are applied to the design of an optimum cryogenic current comparator.
Published in: IEEE Transactions on Applied Superconductivity ( Volume: 9, Issue: 1, March 1999)
DOI: 10.1109/77.763255
Citations are not available for this document.
Cites in Papers - |
Cites in Papers - IEEE (10)
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1.
Wilfrid Poirier, Dominique Leprat, Félicien Schopfer, "A Resistance Bridge Based on a Cryogenic Current Comparator Achieving Sub-10⁻⁹ Measurement Uncertainties", IEEE Transactions on Instrumentation and Measurement, vol.70, pp.1-14, 2021.
2.
M. E. Bierzychudek, R. S. Sánchez–Peña, Alejandra Tonina, "Robust Control of a Two-Terminal Cryogenic Current Comparator", IEEE Transactions on Instrumentation and Measurement, vol.62, no.6, pp.1736-1742, 2013.
3.
G. Rietveld, E. Bartolome, J. Sese, P. de la Court, J. Flokstra, C. Rillo, A. Camon, "1:30000 cryogenic current comparator with optimum SQUID readout", IEEE Transactions on Instrumentation and Measurement, vol.52, no.2, pp.621-625, 2003.
4.
J. Sese, E. Bartolome, A. Camon, J. Flokstra, G. Rietveld, C. Rillo, "Simplified calculus for the design of a cryogenic current comparator", IEEE Transactions on Instrumentation and Measurement, vol.52, no.2, pp.612-616, 2003.
5.
J. Sese, E. Bartolome, A. Camon, J. Flokstra, G. Rietveld, C. Rillo, "Simplified calculus for the design of a cryogenic current comparator", Conference Digest Conference on Precision Electromagnetic Measurements, pp.336-337, 2002.
6.
E. Bartolome, A. Camon, J. Sese, C. Rillo, J. Flokstra, G. Rietveld, H. Rogalla, "Resistance bridge based on the cryogenic current comparator in a transport dewar", IEEE Transactions on Applied Superconductivity, vol.11, no.1, pp.867-870, 2001.
7.
J. Sese, A. Camon, C. Rillo, G. Rietveld, "Ultimate current resolution of a cryogenic current comparator", IEEE Transactions on Instrumentation and Measurement, vol.48, no.6, pp.1306-1313, 1999.
8.
G. Rietveld, L. Vargas, G.C.S. Brons, B. Bouverat, J. Flokstra, H. Rogalla, J. Sese, A. Camon, C. Rillo, W. Jaszczuk, H. Altenburg, "Design and realisation of an optimal current sensitive CCC", 1998 Conference on Precision Electromagnetic Measurements Digest (Cat. No.98CH36254), pp.161-162, 1998.
9.
J. Sese, H.A. Delil, F. Lera, A. Camon, C. Rillo, "CCC inductances calculation: validity of the image method", 1998 Conference on Precision Electromagnetic Measurements Digest (Cat. No.98CH36254), pp.219-220, 1998.
10.
F. Gay, F. Piquemal, G. Geneves, "Medium size cryogenic current comparator as very low current amplifier", 1998 Conference on Precision Electromagnetic Measurements Digest (Cat. No.98CH36254), pp.217-218, 1998.
Cites in Papers - Other Publishers (5)
1.
J.M. Williams, "Cryogenic current comparators and their application to electrical metrology", IET Science, Measurement & Technology, vol.5, no.6, pp.211-224, 2011.
2.
W. Poirier, F. Schopfer, "Resistance metrology based on the quantum Hall effect", The European Physical Journal Special Topics, vol.172, no.1, pp.207, 2009.
3.
C Rillo, J Ses , E Bartolom , J Flokstra, A Cam n, G Rietveld, "On the sensitivity of cryogenic current comparators: theory and experiments", Metrologia, vol.40, no.2, pp.51, 2003.
4.
G. Rietveld, M.G.H. Hiddink, E. Bartolomé, J. Flokstra, J. Sesé, A. Camón, C. Rillo, "Accurate measurement of small currents using a CCC with DC SQUID readout", Sensors and Actuators A: Physical, vol.85, no.1-3, pp.54, 2000.
5.
F. Gay, F. Piquemal, G. Genevès, "Ultralow noise current amplifier based on a cryogenic current comparator", Review of Scientific Instruments, vol.71, no.12, pp.4592, 2000.
