RESUMO
The effective and convenient detection of single photons via advanced detectors with a large active area is becoming significant for quantum and classical applications. This work demonstrates the fabrication of a superconducting microstrip single-photon detector (SMSPD) with a millimeter-scale active area via the use of ultraviolet (UV) photolithography. The performances of NbN SMSPDs with different active areas and strip widths are characterized. SMSPDs fabricated by UV photolithography and electron beam lithography with small active areas are also compared from the aspects of the switching current density and line edge roughness. Furthermore, an SMSPD with an active area of 1 mm × 1 mm is obtained via UV photolithography, and during operation at 0.85â K, it exhibits near-saturated internal detection efficiency at wavelengths up to 800â nm. At a wavelength of 1550â nm, the detector exhibits a system detection efficiency of â¼5% (7%) and a timing jitter of 102 (144) ps, when illuminated with a light spot of â¼18 (600) µm in diameter, respectively.
RESUMO
We propose a method for coupling a tapered optical fiber to an inverted tapered SiN waveguide by fabricating a microfiber using 3D nanoprinting lithography. The microfiber consists of three parts: a tapered cladding cap, an S-bend, and a straight part, all composed of high-refractive-index material. Light is adiabatically coupled from the tapered fiber to the printed microfiber through the cladding cap. The light is then transmitted through the S-bend and the straight part with low loss and is finally coupled to the waveguide through the evanescent field. In the simulation, our design can achieve a high coupling efficiency (TE mode) of â¼97% at a wavelength of 1542 nm with a wide bandwidth of â¼768n m at the 1-dB cutoff criterion.
RESUMO
OBJECTIVE: To explore the fact that the east border of Heilongjiang had been a lyme disease natural focus,we investigated the species and distribution of ticks and isolated bacteria from ticks and identified genomic species of Borrelia burdorferi sensu lato. This study provided evidence for prevention and control of lyme disease. METHODS: Ticks were caught by flagging method and Direct immunofluorescence method was used to detect the rate of bacteria borne by the tick. BSK UI culture medium was used to isolate the agent and Specific McAbs were used to identify the bacteria. SDS-PAGE protein profile and PCR-RFLP method were also used to identify the species of Spirochetes. RESULTS: Ticks, collected from China-Russia border of east Heilongiiang province were classified including Ixodes persulcatus Schulze, Dermacentor sivarum Olener, Haemaphysalis concinna Kock,and Haemaphysalis japonica Kock. We found that the distributon of ticks was different under different circumstances and the predominant species were also different in different ports. The rate of bacteria borne by Iodes persulaatus Schulze was 31.4% ,by Dermacentor sivarum Olener and Haemaphysalis concinna Kock were 2.2% and 3.8%, respectively. However,it was negative for Haenaphysalis japonica Kock. Spirochetes isolated from Ixodes persulcatus Schulze were collected from Dongning and Tongjiang while Genomic species of Spirochetes, isolated from ticks of the border belonged to B. garinii. CONCLUSION: All the results showed that the east border of Heilongjiang province was the natural focus of lyme disease.