Please use this identifier to cite or link to this item: https://doi.org/10.1063/1.3479909
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dc.titleTerahertz superconductor metamaterial
dc.contributor.authorGu, J.
dc.contributor.authorSingh, R.
dc.contributor.authorTian, Z.
dc.contributor.authorCao, W.
dc.contributor.authorXing, Q.
dc.contributor.authorHe, M.
dc.contributor.authorZhang, J.W.
dc.contributor.authorHan, J.
dc.contributor.authorChen, H.-T.
dc.contributor.authorZhang, W.
dc.date.accessioned2014-10-16T09:44:38Z
dc.date.available2014-10-16T09:44:38Z
dc.date.issued2010-08-16
dc.identifier.citationGu, J., Singh, R., Tian, Z., Cao, W., Xing, Q., He, M., Zhang, J.W., Han, J., Chen, H.-T., Zhang, W. (2010-08-16). Terahertz superconductor metamaterial. Applied Physics Letters 97 (7) : -. ScholarBank@NUS Repository. https://doi.org/10.1063/1.3479909
dc.identifier.issn00036951
dc.identifier.urihttp://scholarbank.nus.edu.sg/handle/10635/98238
dc.description.abstractWe characterize the behavior of split ring resonators made up of high transition temperature yttrium barium copper oxide superconductor using terahertz time-domain spectroscopy measurements and numerical simulations. The superconductor metamaterial is found to show a remarkable change in the transmission spectra at the fundamental inductive-capacitive resonance as the temperature dips below the critical transition temperature. This resonance switching effect is normally absent in traditional metamaterials made up of regular metals. The temperature-dependent resonance behavior of the superconducting metamaterial would lead to development of low loss terahertz switches at cryogenic temperatures. © 2010 American Institute of Physics.
dc.description.urihttp://libproxy1.nus.edu.sg/login?url=http://dx.doi.org/10.1063/1.3479909
dc.sourceScopus
dc.typeArticle
dc.contributor.departmentPHYSICS
dc.description.doi10.1063/1.3479909
dc.description.sourcetitleApplied Physics Letters
dc.description.volume97
dc.description.issue7
dc.description.page-
dc.description.codenAPPLA
dc.identifier.isiut000281153600002
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