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kinetic-inductances
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Compact closed form model for skin and proximity effect in multiwall carbon nanotube bundles as GSI interconnects
, Article IEEE Transactions on Electron Devices ; Vol. 61, issue. 8 , July , 2014 , p. 2899-2904 ; Sarvari, R ; Sharif University of Technology
Abstract
Closed form model for skin and proximity effect is necessary for GSI interconnects. In this paper, exact formulation for current distribution inside multiwall carbon nanotube (MWCNT) bundles is derived using multiconductor transmission line model. The current distribution is different from copper wires and it is geometry dependent because of kinetic inductance and quantum capacitance. This current distribution is used to compute and formulate high frequency resistance of MWCNT bundles
Development of DESHIMA: A redshift machine based on a superconducting on-chip filterbank
, Article Proceedings of SPIE - The International Society for Optical Engineering ; Volume 8452 , 2012 ; 0277786X (ISSN) ; 9780819491534 (ISBN) ; Baselmans, J. J. A ; Van Der Werf, P. P ; Knoors, B ; Javadzadeh, S. M. H ; Yates, S. J. C ; Thoen, D. J ; Ferrari, L ; Baryshev, A. M ; Lankwarden, Y. J. Y ; De Visser, P. J ; Janssen, R. M. J ; Klapwijk, T. M ; Sharif University of Technology
2012
Abstract
Distant, dusty and extremely luminous galaxies form a key component of the high redshift universe, tracing the period of intense cosmic activity that ultimately gave rise to the present-day universe. These highly luminous galaxies, first detected in the ground-based submillimeter region, are however optically very faint, which hampers identification of the optical counterpart and the measurement of a redshift. We are developing a new direct-detection submm spectrograph DESHIMA. By taking advantage of the rapidly advancing technology of superconducting microresonators, DESHIMA will revolutionize the appearance and capabilities of a submm spectrograph. There will no longer be large grating...