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- Title
Four-Channel Current-Biased Kinetic Inductance Detectors Using MgB $$_2$$ Nanowires for Sensing Pulsed Laser Irradiation.
- Authors
Yoshioka, N.; Narukami, Y.; Miyajima, S.; Shishido, H.; Fujimaki, A.; Miki, S.; Wang, Z.; Ishida, T.
- Abstract
We recently proposed the idea of a novel sort of superconducting detector, i.e., a current-biased kinetic inductance detector (CB-KID). This detector is different from a current-biased transition edge detector studied previously, and is able to sense a change in kinetic inductance $$L_k$$ given by $$L_{k} = \Lambda _{k}l/S = m_{s}l/n_{s}{q_{s}}^{2}S$$ ( $$\Lambda _{k}$$ ; kinetic inductivity, $$m_s$$ ; mass of Cooper pair, $$n_s$$ ; density of Cooper pairs, $$q_s$$ ; charge of Cooper pair, $$l$$ ; length of device, $$S$$ ; cross sectional area) under a constant dc bias current $$I_b$$ . In the present work, we first extend this idea to construct a multi-channel CB-KIDs array made of 200-nm-thick MgB $$_2$$ thin-film meanderline with 3- $$\upmu $$ m thin wire. We succeeded in observing clear signals for imaging from the four-channel CB-KIDs at 4 K by irradiating focused pulsed laser. A scanning laser spot can be achieved by an XYZ piezo-driven stage and an optical fiber with an aspheric focused lens. We can see typical signals from all 4 channels at 4 K, and obtain the positional dependence of the signal as the contour in XY plane. Our CB-KIDs can be used as neutron detectors by utilizing energy released from a nuclear reaction between $$^{10}$$ B and cold neutron.
- Subjects
ELECTRIC inductance; NANOWIRES; PULSED lasers; IRRADIATION; NEUTRON counters; COLD neutrons; SUPERCONDUCTING junction devices
- Publication
Journal of Low Temperature Physics, 2014, Vol 176, Issue 3/4, p273
- ISSN
0022-2291
- Publication type
Article
- DOI
10.1007/s10909-014-1135-3