XCAT: The JANUS X-Ray Coded Aperture Telescope

被引:2
作者
Falcone, A. D. [1 ]
Burrows, D. N. [1 ]
Barthelmy, S. [2 ]
Chang, W. [3 ]
Fox, D. [1 ]
Fredley, J. [4 ]
Gehrels, N. [2 ]
Kelly, M. [4 ]
Klar, R. [5 ]
Palmer, D. [6 ]
Persyn, S. [5 ]
Reichard, K. [4 ]
Roming, P. [5 ]
Seifert, E. [4 ]
Smith, R. W. M. [4 ]
Wood, P.
Zugger, M. [4 ]
机构
[1] Penn State Univ, Dept Astron & Astrophys, 525 Davey Lab, University Pk, PA 16802 USA
[2] NASA, Goddard Space Flight Ctr, Greenbelt, MD 20771 USA
[3] Edge Space Syst, State Coll, PA 16804 USA
[4] Penn State Univ, Appl Res Lab, State Coll, PA 16804 USA
[5] Southwest Res Inst, San Antonio, TX 78238 USA
[6] Los Alamos Natl Lab, Los Alamos, NM 87545 USA
来源
SPACE TELESCOPES AND INSTRUMENTATION 2010: ULTRAVIOLET TO GAMMA RAY | 2010年 / 7732卷
关键词
X-ray; CMOS; active pixel sensor; coded mask; star formation; gamma ray bursts; JANUS; XCAT;
D O I
10.1117/12.857300
中图分类号
P1 [天文学];
学科分类号
0704 ;
摘要
The JANUS mission concept is designed to study the high redshift universe using a small, agile Explorer class observatory. The primary science goals of JANUS are to use high redshift (6<z<12) gamma ray bursts and quasars to explore the formation history of the first stars in the early universe and to study contributions to reionization. The X-Ray Coded Aperture Telescope (XCAT) and the Near-IR Telescope (NIRT) are the two primary instruments on JANUS. XCAT has been designed to detect bright X-ray flashes (XRFs) and gamma ray bursts (GRBs) in the 1-20 keV energy band over a wide field of view (4 steradians), thus facilitating the detection of z>6 XRFs/GRBs, which can be further studied by other instruments. XCAT would use a coded mask aperture design with hybrid CMOS Si detectors. It would be sensitive to XRFs and GRBs with flux in excess of approximately 240 mCrab. In order to obtain redshift measurements and accurate positions from the NIRT, the spacecraft is designed to rapidly slew to source positions following a GRB trigger from XCAT. XCAT instrument design parameters and science goals are presented in this paper.
引用
收藏
页数:7
相关论文
共 50 条
  • [21] A complex solar X-ray and EUV imaging telescope design
    Bo, C
    Yan, G
    Ni, QL
    TELESCOPES AND INSTRUMENTATION FOR SOLAR ASTROPHYSICS, 2004, 5171 : 155 - 159
  • [22] Adding hard X-ray imaging capabilities to a compton telescope
    Wunderer, Cornelia B.
    Bandstra, Mark E.
    Boggs, Steven E.
    Bowen, Jason D.
    Coburn, Wayne
    6TH INTEGRAL WORKSHOP: THE OBSCURED UNIVERSE, 2007, 622 : 653 - 656
  • [23] GLASS AND SILICON FOILS FOR X-RAY SPACE TELESCOPE MIRRORS
    Mika, M.
    Pina, L.
    Landova, M.
    Jankovsky, O.
    Kacerovsky, R.
    Sveda, L.
    Havlikova, R.
    Hudec, R.
    Marsikova, V.
    Inneman, A.
    CERAMICS-SILIKATY, 2011, 55 (04) : 418 - 424
  • [24] The X-ray and optical performance of the flight filters for the JET-X telescope
    Castelli, CM
    Watson, DJ
    Wells, A
    Kent, BJ
    Barbera, M
    Collura, A
    Bavdaz, M
    EUX, X-RAY, AND GAMMA-RAY INSTRUMENTATION FOR ASTRONOMY VIII, 1997, 3114 : 384 - 391
  • [25] Detector Calibration for the Micro-X Sounding Rocket X-ray Telescope
    D. C. Goldfinger
    J. S. Adams
    R. Baker
    S. R. Bandler
    N. Bastidon
    M. E. Danowski
    W. B. Doriese
    M. E. Eckart
    E. Figueroa-Feliciano
    S. N. T. Heine
    G. C. Hilton
    A. J. F. Hubbard
    R. L. Kelley
    C. A. Kilbourne
    R. E. Manzagol-Harwood
    D. McCammon
    T. Okajima
    F. S. Porter
    C. D. Reintsema
    P. Serlemitsos
    S. J. Smith
    P. Wikus
    Journal of Low Temperature Physics, 2018, 193 : 984 - 990
  • [26] Super-X:: A soft X-ray telescope for Solar-B
    Acton, L
    Bookbinder, J
    Bruner, M
    Golub, L
    Lemen, J
    MISSIONS TO THE SUN II, 1998, 3442 : 140 - 149
  • [27] The camera of the Microchannel X-ray Telescope onboard the SVOM mission
    Meuris, Aline
    Pinsard, Frederic
    Doumayrou, Eric
    Tourrette, Thierry
    Goetz, Diego
    Carty, Mickael
    Donati, Modeste
    Dumaye, Luc
    Goetschy, Alain
    Nico, Francois
    Meidinger, Norbert
    Miessner, Danilo
    Mercier, Karine
    SPACE TELESCOPES AND INSTRUMENTATION 2014: ULTRAVIOLET TO GAMMA RAY, 2014, 9144
  • [28] Large aperture x-ray refractive lens from lithium
    Pereira, NR
    Dufresne, EM
    Arms, DA
    Clarke, R
    DESIGN AND MICROFABRICATION OF NOVEL X-RAY OPTICS II, 2004, 5539 : 174 - 184
  • [29] Detector Calibration for the Micro-X Sounding Rocket X-ray Telescope
    Goldfinger, D. C.
    Adams, J. S.
    Baker, R.
    Bandler, S. R.
    Bastidon, N.
    Danowski, M. E.
    Doriese, W. B.
    Eckart, M. E.
    Figueroa-Feliciano, E.
    Heine, S. N. T.
    Hilton, G. C.
    Hubbard, A. J. F.
    Kelley, R. L.
    Kilbourne, C. A.
    Manzagol-Harwood, R. E.
    McCammon, D.
    Okajima, T.
    Porter, F. S.
    Reintsema, C. D.
    Serlemitsos, P.
    Smith, S. J.
    Wikus, P.
    JOURNAL OF LOW TEMPERATURE PHYSICS, 2018, 193 (5-6) : 984 - 990
  • [30] Backscattering X-ray imaging using Fresnel zone aperture
    Shimura, Takayoshi
    Hosoi, Takuji
    Watanabe, Heiji
    APPLIED PHYSICS EXPRESS, 2021, 14 (07)
12345