2012
DOI: 10.1063/1.3678027
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Low noise MgB2 terahertz hot-electron bolometer mixers

Abstract: We report on low noise terahertz bolometric mixers made of MgB 2 superconducting thin films. For a 10-nm-thick MgB 2 film, the lowest mixer noise temperature was 600 K at 600 GHz. For 30 to 10-nm-thick films, the mixer gain bandwidth is an inverse function of the film thickness, reaching 3.4 GHz for the 10-nm film. As the critical temperature of the film decreases, the gain bandwidth also decreases, indicating the importance of high quality thin films for large gain bandwidth mixers. The results indicate the p… Show more

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Cited by 27 publications
(23 citation statements)
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“…In particular, the T c of above 34 K of the nanowires, which surpassed the values of about 20 K for MgB 2 nanowires obtained by other groups, 11,13 opens the door for developing MgB 2 superconducting devices such as submicron-HEBs and SSPDs with higher operating temperatures at 15-20 K than that currently available. [18][19][20][21] In practically realizing such devices, we note that further refinement to the present FIB milling procedure may be needed. For instance, before the deposition of the conductive Ti/Au layers, one could deposit an insulating passivation layer first in the area to fabricate nanowires on the MgB 2 ultrathin film, 20 which would help isolate the obtained nanowires from directly contacting with the Ti/Au layers.…”
Section: -6mentioning
confidence: 99%
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“…In particular, the T c of above 34 K of the nanowires, which surpassed the values of about 20 K for MgB 2 nanowires obtained by other groups, 11,13 opens the door for developing MgB 2 superconducting devices such as submicron-HEBs and SSPDs with higher operating temperatures at 15-20 K than that currently available. [18][19][20][21] In practically realizing such devices, we note that further refinement to the present FIB milling procedure may be needed. For instance, before the deposition of the conductive Ti/Au layers, one could deposit an insulating passivation layer first in the area to fabricate nanowires on the MgB 2 ultrathin film, 20 which would help isolate the obtained nanowires from directly contacting with the Ti/Au layers.…”
Section: -6mentioning
confidence: 99%
“…Despite the above significant advances, it has to be pointed out that so far the fabricated MgB 2 nanowires mostly show T c 's considerably lower than the value of 39 K in bulk MgB 2 samples, 11,13,[18][19][20][21] primarily owing to the fact that the T c 's of the precursor MgB 2 ultrathin films used to fabricate these nanowires are low, showing values only around or below 20 K in films of 10 nm thick or less. [10][11][12][13] It is obvious that with such markedly decreased T c of the nanowires, the initial expectation is difficult to be fulfilled to develop MgB 2 -based HEBs or SSPDs with operating temperatures apparently higher than that of NbN-based devices.…”
Section: Introductionmentioning
confidence: 99%
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