Advanced Search
Zhong Liyun, Zhu Shiqiu, Wang Yi, Yang Qimin, Yang Yu. Study of YBa2Cu3-xZnxO7thin film infrared detector[J]. LASER TECHNOLOGY, 1998, 22(1): 11-14.
Citation: Zhong Liyun, Zhu Shiqiu, Wang Yi, Yang Qimin, Yang Yu. Study of YBa2Cu3-xZnxO7thin film infrared detector[J]. LASER TECHNOLOGY, 1998, 22(1): 11-14.

Study of YBa2Cu3-xZnxO7thin film infrared detector

More Information
  • Received Date: May 05, 1997
  • Revised Date: September 28, 1997
  • Published Date: January 24, 1998
  • Base on the theoretical analysis,the YBa2Cu3-xZnxO7 thin film infrared detector has been designed and manufactured.The properties of the detector has been measured at 77°K and are well agreement with design,as follow:Rv(500,10,1)=3587V/W,NEP(500,10,1)=6.5×10-12W/Hz1/2,D*(500,10,1)=7.2×1012cmHz1/2/W,τ(500,10,1)=1.2ms.
  • [1]
    Anderson P W,Carr J P.Phys Rev,1994;B41:1893
    [1]
    Ong N P,Salem J,Lee W Y et al.Phys Rev Lett,1991;67:2088
    [2]
    张振杰译.光辐射探测器.西安:陕西省教育出版社,1991:346
    [3]
    Carringt on A,Carts P F.Phys Rev Lett,1992;69:2855
    [4]
    Richards P L,Fisher M J,Dehart T E et al.A P L,1989;54:283
    [5]
    Polliner C,Sugimoto A,Yamaquchi Y et al.J Phys Soc Jpn,1994;71:3348
    [6]
    Fukuyama H,Tanaka M,Tach ik i M.J Phys Soc.Jpn,1995;74:42
  • Related Articles

    [1]MA Fei, WANG Fang, HUO Shuai. Adaptive deep prior for hyperspectral image super-resolution[J]. LASER TECHNOLOGY, 2024, 48(4): 491-498. DOI: 10.7510/jgjs.issn.1001-3806.2024.04.006
    [2]GUO Youdong, LING Furi, YAO Jianquan. Super-resolution reconstruction for terahertz images based on gradient transform[J]. LASER TECHNOLOGY, 2020, 44(3): 271-277. DOI: 10.7510/jgjs.issn.1001-3806.2020.03.001
    [3]FANG Yaoxin, GUO Baofeng, MA Chao. Super-resolution reconstruction of remote sensing images based on the improved point spread function[J]. LASER TECHNOLOGY, 2019, 43(5): 713-718. DOI: 10.7510/jgjs.issn.1001-3806.2019.05.024
    [4]LIU Zhigang, ZHAO Li, ZHU Tong, ZHANG Feng, JIA Guangfeng. Research of indoor positioning and illuminating systems based on visible light[J]. LASER TECHNOLOGY, 2018, 42(5): 646-650. DOI: 10.7510/jgjs.issn.1001-3806.2018.05.012
    [5]XIANG Zhicong, ZHANG Chengxiao, BAI Yulei, LAI Wenjing, WANG Qinruo, ZHOU Yanzhou. Adaptive filtering algorithm for high resolution 3-D images[J]. LASER TECHNOLOGY, 2015, 39(5): 697-701. DOI: 10.7510/jgjs.issn.1001-3806.2015.05.024
    [6]LI Qiang, LIU Zhe, NAN Bingbing, GU Shuyin. Improved image super-resolution reconstruction based neighbor embedding[J]. LASER TECHNOLOGY, 2015, 39(1): 13-18. DOI: 10.7510/jgjs.issn.1001-3806.2015.01.003
    [7]BAI Ling, ZHAO Xiu-li, LIU Yi, QU Shi-liang, LI Yan. Optical fiber micro-hole sensor fabricated with femtosecond laser[J]. LASER TECHNOLOGY, 2013, 37(1): 101-104. DOI: 10.7510/jgjs.issn.1001-3806.2013.01.025
    [8]ZHANG Qing-sheng, YU Qing-ting, LIU Gan-yong, . Method of aperture synthesizing in digital holography based on gray correlation algorithm[J]. LASER TECHNOLOGY, 2009, 33(3): 276-278,282.
    [9]YUAN Cao-jin, ZHONG Li-yun, WANG Yan-ping, QIAN Xiao-fan, . The analysis of off-axis digital holographic recording conditions[J]. LASER TECHNOLOGY, 2004, 28(5): 482-484,538.
    [10]ZOU Xiao-ping, SU Xian-yu, ZHANG Qi-can. Methods of improving the depth resolution in optical 3-D profilometry with laser sheet[J]. LASER TECHNOLOGY, 2004, 28(2): 196-198,224.

Catalog

    Article views (4) PDF downloads (20) Cited by()

    /

    DownLoad:  Full-Size Img  PowerPoint
    Return
    Return