Array of Superconducting Quantum Interference Devices with Multiturn Input Coil

Abstract: Arrays of dc-superconducting quantum interference devices (dc-SQUIDs) were investigated, in which each dc-SQUID element has a multiturn input coil. The dependence of flux noise on the number of turns of the input coil was studied for current amplifiers. SQUID arrays were fabricated by a Nb/AlO x /Nb Josephson tunnel junction fabrication process. Results show that the flux noise of the SQUID array amplifier does not depend on the turn number of the input coil. A SQUID array amplifier consisting of 128 dc-SQUID … Show more

“…small output voltage, the SQUID gradiometer was connected to a series SQUID amplifier 420-SSA made by SII [7] whose flux noise is F n o0:5 mF 0 = ffiffiffiffiffiffi ffi Hz p located at the 1 K stage. Since the R s derived from current-voltage characteristics of the SQUID is 80 mO, to fully utilize the dynamic range of the SQUID amplifier, we chose the load resistance to be R s =4 ¼ 20 mO.…”

Development of a low temperature SQUID gradiometer for magnetic microcalorimeters

“…small output voltage, the SQUID gradiometer was connected to a series SQUID amplifier 420-SSA made by SII [7] whose flux noise is F n o0:5 mF 0 = ffiffiffiffiffiffi ffi Hz p located at the 1 K stage. Since the R s derived from current-voltage characteristics of the SQUID is 80 mO, to fully utilize the dynamic range of the SQUID amplifier, we chose the load resistance to be R s =4 ¼ 20 mO.…”

Development of a low temperature SQUID gradiometer for magnetic microcalorimeters

Development of Low Temperature SQUID Gradiometer Array for Metallic Magnetic Microcalorimeters

Development of SFQ Multi-Chip Modules for Quantum Bits