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    Project Icarus: preliminary thoughts on the selection of probes and instruments for an Icarus-style interstellar mission

    Crawford, Ian (2016) Project Icarus: preliminary thoughts on the selection of probes and instruments for an Icarus-style interstellar mission. Journal of the British Interplanetary Society 69 (01), pp. 4-10. ISSN 0007-084X.

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    Abstract

    In this paper we outline the range of probes and scientific instruments that will be required in order for Icarus to fulfill its scientific mission of exploring a nearby star, its attendant planetary system, and the intervening interstellar medium. Based on this preliminary analysis, we estimate that the minimum total Icarus scientific payload mass (i.e. the mass of probes and instruments which must be decelerated to rest in the target system to enable a meaningful programme of scientific investigation) will be in the region of 100 tonnes. Of this, approximately 10 tonnes would be allocated for cruise-phase science instruments, and about 35 tonnes (i.e. the average of estimated lower and upper limits of 28 and 41 tonnes) would be contributed by the intra-system science payload itself (i.e. the dry mass of the stellar and planetary probes and their instruments). The remaining ~55 tonnes is allocated for the sub-probe intra-system propulsion requirements (crudely estimated from current Solar System missions; detailed modelling of sub-probe propulsion systems will be needed to refine this figure). The overall mass contributed by the science payload to the total that must be decelerated from the interstellar cruise velocity will be considerably more than 100 tonnes, however, as allowance must be made for the payload structural and infrastructural elements required to support, deploy, and communicate with the science probes and instruments. Based on the earlier Daedalus study, we estimate another factor of two to allow for these components. Pending the outcome of more detailed studies, it therefore appears that an overall science-related payload mass of ~200 tonnes will be required. This paper is a submission of the Project Icarus Study Group.

    Metadata

    Item Type: Article
    Keyword(s) / Subject(s): Interstellar travel, exoplanets, interstellar medium, stellar properties, planetary science, astrobiology
    School: Birkbeck Schools and Departments > School of Science > Earth and Planetary Sciences
    Depositing User: Administrator
    Date Deposited: 08 Jun 2016 11:07
    Last Modified: 17 Nov 2017 09:16
    URI: http://eprints.bbk.ac.uk/id/eprint/15455

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