2016
DOI: 10.1088/0953-2048/29/8/084007
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Flexible superconducting Nb transmission lines on thin film polyimide for quantum computing applications

Abstract: We describe progress and initial results achieved towards the goal of developing integrated multi-conductor arrays of shielded controlled-impedance flexible superconducting transmission lines with ultra-miniature cross sections and wide bandwidths (dc to >10 GHz) over meter-scale lengths. Intended primarily for use in future scaled-up quantum computing systems, such flexible thin-film niobium/polyimide ribbon cables could provide a physically compact and ultra-low thermal conductance alternative to the rapidly… Show more

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Cited by 62 publications
(24 citation statements)
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“…In conclusion, a transmission lines have almost fabricated using a vacuum deposition, electroplating and electroless plating [9,10], however these transmission lines are difficult to be fabricated as the application in regard to flexible electronics device in the future [11]. Thus, we fabricated the transmission line on FR-4 and PI substrates and investigated their RF performance in order to know an influence of substrate in regard to transmission lines.…”
Section: Resultsmentioning
confidence: 99%
“…In conclusion, a transmission lines have almost fabricated using a vacuum deposition, electroplating and electroless plating [9,10], however these transmission lines are difficult to be fabricated as the application in regard to flexible electronics device in the future [11]. Thus, we fabricated the transmission line on FR-4 and PI substrates and investigated their RF performance in order to know an influence of substrate in regard to transmission lines.…”
Section: Resultsmentioning
confidence: 99%
“…Another important issue for microwave superconductivity is the ability to get high frequency signals back and forth to the cryogenic environment without compromising the integrity of the signal or the efficiency of the cryogenic cooling system. This has led to development of low-microwave loss transmission lines that are simultaneously a small heat-load on the cryogenic environment [126]. Examples of such structures include flexible dielectric tapes with an array of superconducting or low-loss metallic transmission line structures.…”
Section: Microwave Superconducting Infrastructurementioning
confidence: 99%
“…A more tractable solution is to thermalize the control electronics in the range of 3-4 K and use superconductive transmission lines to couple the control signals down to the 10-mK stage [15], [17]. By using superconducting interconnects, it is possible to achieve excellent electrical and thermal performance in a small cross-sectional area [39]. In the following, we will assume that the quantum control electronics are thermalized in the range of 3-4 K.…”
Section: A Ambient Temperaturementioning
confidence: 99%