Demonstration of a multiplexer of dissipationless superconducting quantum interference devices. Mates, J. a. B., Hilton, G. C., Irwin, K. D., Vale, L. R., & Lehnert, K. W. Applied Physics Letters, 92(2):023514, January, 2008. tex.ids= mates-ApplPhysLett-Demonstrationmultiplexer-2008a publisher: American Institute of PhysicsAIPPaper doi abstract bibtex We report on the development of a microwave superconducting quantum interference device (SQUID) multiplexer to read out arrays of low-temperature detectors. In this frequency-division multiplexer, superconducting resonators with different frequencies couple to a common transmission line and each resonator couples to a different dissipationless SQUID. We demonstrate multiple designs, with high-Q values (4100–18 000), noise as low as 0.17μΦ0∕Hz, and a naturally linear readout scheme based on flux modulation. This multiplexing approach is compatible with superconducting transition-edge sensors and magnetic calorimeters and is capable of multiplexing more than a thousand detectors in a single transmission line.
@article{mates_demonstration_2008,
title = {Demonstration of a multiplexer of dissipationless superconducting quantum interference devices},
volume = {92},
copyright = {© 2008 American Institute of Physics.},
issn = {0003-6951},
url = {https://aip.scitation.org/doi/abs/10.1063/1.2803852},
doi = {10.1063/1.2803852},
abstract = {We report on the development of a microwave superconducting quantum interference device (SQUID) multiplexer to read out arrays of low-temperature detectors. In this frequency-division multiplexer, superconducting resonators with different frequencies couple to a common transmission line and each resonator couples to a different dissipationless SQUID. We demonstrate multiple designs, with high-Q values (4100–18 000), noise as low as 0.17μΦ0∕Hz, and a naturally linear readout scheme based on flux modulation. This multiplexing approach is compatible with superconducting transition-edge sensors and magnetic calorimeters and is capable of multiplexing more than a thousand detectors in a single transmission line.},
language = {en},
number = {2},
urldate = {2021-01-13},
journal = {Applied Physics Letters},
author = {Mates, J. a. B. and Hilton, G. C. and Irwin, K. D. and Vale, L. R. and Lehnert, K. W.},
month = jan,
year = {2008},
note = {tex.ids= mates-ApplPhysLett-Demonstrationmultiplexer-2008a
publisher: American Institute of PhysicsAIP},
pages = {023514},
}
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