Scientific Performance of a Nano-satellite MeV Telescope

被引:5
|
作者
Lucchetta, Giulio [1 ,3 ]
Berlato, Francesco [1 ,4 ]
Rando, Riccardo [1 ,2 ]
Bastieri, Denis [1 ,2 ]
Urso, Giorgio [1 ]
机构
[1] G Galilei Univ Padova, Dipartimento Fis & Astron, I-35131 Padua, Italy
[2] Ist Nazl Fis Nucl, Sez Padova, I-35131 Padua, Italy
[3] DeSy, Zeuthen, Germany
[4] MPE, Garching, Germany
来源
ASTRONOMICAL JOURNAL | 2017年 / 153卷 / 05期
关键词
astroparticle physics; gamma rays: general; instrumentation: detectors; LARGE-AREA TELESCOPE; COMPTEL;
D O I
10.3847/1538-3881/aa6a1b
中图分类号
P1 [天文学];
学科分类号
0704 ;
摘要
Over the past two decades, both X-ray and gamma-ray astronomy have experienced great progress. However, the region of the electromagnetic spectrum around similar to 1 MeV is not so thoroughly explored. Future medium-sized gamma-ray telescopes will fill this gap in observations. As the timescale for the development and launch of a medium-class mission is similar to 10 years, with substantial costs, we propose a different approach for the immediate future. In this paper, we evaluate the viability of a much smaller and cheaper detector: a nano-satellite Compton telescope, based on the CubeSat architecture. The scientific performance of this telescope would be well below that of the instrument expected for the future larger missions; however, via simulations, we estimate that such a compact telescope will achieve a performance similar to that of COMPTEL.
引用
收藏
页数:8
相关论文
共 50 条
  • [1] Performance Analysis of Micrium RTOS in the computer of a Nano-Satellite
    Nagarajan, Chandrasekhar
    Kinger, Krishna
    Haider, Faraz
    Agarwal, Rajat
    2015 IEEE AEROSPACE CONFERENCE, 2015,
  • [2] Impact of Performance Modeling on Nano-Satellite Mission Design
    Abbott, John
    2012 IEEE AEROSPACE CONFERENCE, 2012,
  • [3] Entanglement demonstration on board a nano-satellite
    Villar, Aitor
    Lohrmann, Alexander
    Bai, Xueliang
    Vergoossen, Tom
    Bedington, Robert
    Perumangatt, Chithrabhanu
    Lim, Huai Ying
    Islam, Tanvirul
    Reezwana, Ayesha
    Tang, Zhongkan
    Chandrasekara, Rakhitha
    Sachidananda, Subash
    Durak, Kadir
    Wildfeuer, Christoph F.
    Griffin, Douglas
    Oi, Daniel K. L.
    Ling, Alexander
    OPTICA, 2020, 7 (07): : 734 - 737
  • [4] Design and Analysis of Antennas for a Nano-Satellite
    Sadasivan, Kshitij Sandeep
    Shalini, Srinivasan N.
    Cheela, Bhagath Singh
    Annavarapu, Nirav
    2017 IEEE AEROSPACE CONFERENCE, 2017,
  • [5] Design solutions for a university nano-satellite
    Passerone, Claudio
    Tranchero, Maurizio
    Speretta, Stefano
    Reyneri, Leonardo
    Sansoe, Claudio
    Del Corso, Dante
    2008 IEEE AEROSPACE CONFERENCE, VOLS 1-9, 2008, : 2891 - 2903
  • [6] Analysis of CMBR using Nano-Satellite
    Sahoo, Dhananjay
    Gupta, Avish
    2018 IEEE AEROSPACE CONFERENCE, 2018,
  • [7] A nano-satellite to study the Sun and the Earth
    Meftah, M.
    Irbah, A.
    Hauchecorne, A.
    Dame, L.
    Sarkissian, A.
    Keckhut, P.
    Lagage, P. -O.
    Dewitte, S.
    Chevalier, A.
    SENSORS AND SYSTEMS FOR SPACE APPLICATIONS VII, 2014, 9085
  • [8] RESIDUAL MAGNETIC TORQUE ESTIMATION FOR NANO-SATELLITE
    Yoshihara, Kai
    Yamazaki, Masahiko
    Miyazaki, Yasuyuki
    FOURTH IAA CONFERENCE ON UNIVERSITY SATELLITE MISSIONS AND CUBESAT WORKSHOP 2017, 2018, 163 : 319 - 326
  • [9] A neutral wind instrument for nano-satellite platforms
    Kordella, L. J.
    Earle, G. D.
    Roth, G.
    Noel, S.
    Robertson, R., V
    Davidson, R. L.
    Holland, C. E.
    Garg, V
    REVIEW OF SCIENTIFIC INSTRUMENTS, 2018, 89 (09):
  • [10] FPGA Implementation of Telecommand System for Nano-satellite
    Amogh, K. M.
    Mohan, Shreshta
    Handral, Rakshitha V.
    Neema, N.
    Agarwal, Priyanka
    PROCEEDINGS OF THE 3RD INTERNATIONAL CONFERENCE ON COMMUNICATION AND ELECTRONICS SYSTEMS (ICCES 2018), 2018, : 66 - 69
12345