Title :
Nanopatterning and Hot Spot Modeling of YBCO Ultrathin Film Constrictions for THz Mixers
Author :
Ladret, Romain G. ; Degardin, Annick F. ; Kreisler, Alain J.
Author_Institution :
Paris Electr. Eng. Lab. (LGEP), UPMC Univ. Paris 06, Gif-sur-Yvette, France
Abstract :
High-TC hot electron bolometers (HEB) are promising THz mixers due to their expected wide bandwidth, large mixing gain, and low intrinsic noise. To achieve this goal, 0.6-μm-size constrictions were patterned on YBaCuO-based, 10-40-nm-thick films grown on (100) MgO substrates, which as previously reported, exhibited good DC superconducting properties. In this paper, we have simulated the DC and mixer characteristics of YBaCuO HEBs with a hot spot model usually dedicated to low-TC devices. For a 100 nm × 100 nm × 10 nm constriction, the expected double sideband noise temperature TN is 2000 K for 5 μW local oscillator (LO) power (G = -13.5 dB conversion gain). For a larger (but more realistic according to YBaCuO aging effects) 600 nm × 1000 nm × 35 nm constriction, TN = 1300 K at 200 μW LO power (G = -12 dB). This approach is expected to allow optimizing the operation of the HEB constriction coupled to a THz planar antenna.
Keywords :
bolometers; mixers (circuits); nanopatterning; oscillators; planar antennas; thick film devices; DC superconducting properties; THz mixers; THz planar antenna; YBCO ultrathin film constrictions; high-TC hot electron bolometers; hot spot modeling; local oscillator; nanopatterning; power 200 muW; power 5 muW; size 0.6 mum; size 10 nm to 40 nm; size 100 nm; size 1000 nm; temperature 1300 K; temperature 2000 K; thick films; Bolometers; Films; Mixers; Noise; Phonons; Superconducting microwave devices; Yttrium barium copper oxide; Hot-electron bolometer (HEB); YBCO ultrathin film; hot spot model; noise temperature; terahertz wave detection;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2012.2234819
