(16) Psyche is a metallic asteroid located in the asteroid belt between Mars and Jupiter. The composition of Psyche is unknown, but the scientific community believes it is composed primarily of iron, nickel, and silicates. The Psyche mission will be the first space mission to study this asteroid in close proximity, and as such, determining the elemental composition of the asteroid is one of the primary objectives of this mission. The spacecraft measures this elemental composition using the Gamma Ray Spectrometer (GRS), which detects cosmic-ray induced gamma rays from Psyche’s surface. In addition to gamma rays from Psyche, the GRS will also detect background gamma rays from spacecraft material nearby the GRS. Because Ni is such a key element for achieving the mission science objectives, a special effort has been made to minimize background gamma rays from Ni, thus maximizing sensitivity to the Ni gamma rays from Psyche. The Psyche mission approached this potential Ni background issue with two methods, locating the GRS away from the spacecraft/source of Ni and setting a threshold requirement against the total Ni mass of the spacecraft. Verifying that the total amount of Ni on the spacecraft is within this threshold is thus a key part of ensuring the GRS can meet its science objectives. Ni alloys are commonly used on spacecraft, but the mass and location of elemental Ni is not typically accounted for. Ni can be found in many materials all over the spacecraft – in fasteners, optical assemblies, magnetic shields, electromagnetic interference (EMI) tape, under gold plating, in connectors, and so on. The task proved further challenging because of the distributed nature of the build of this spacecraft and the use of vendors external to JPL. While the analysis was atypical and source information difficult to cull, the approach described in this paper used tools and data available to the project in some form to achieve this goal. For Psyche, current analysis shows there is margin in meeting the Ni mass requirement. This paper explains the systematic approach used to accurately and precisely record Ni content on the Psyche spacecraft. While this approach was defined for Ni on the Psyche mission, it can be used for any future project with the need to accurately estimate the total mass of a single element or material on a spacecraft.


    Access

    Access via TIB

    Check availability in my library


    Export, share and cite



    Title :

    Nickel Accounting for the Psyche Spacecraft


    Contributors:

    Publication date :

    2022-03-05


    Type of media :

    Preprint


    Type of material :

    No indication


    Language :

    English



    Nickel Accounting for the Psyche Spacecraft

    Bradford, Emma / Kokorowski, Michael / Lawrence, David et al. | IEEE | 2022


    Nickel Accounting for the Psyche Spacecraft

    Cullinan, Joe / Lawrence, David / Kokorowski, Michael et al. | NTRS | 2022


    Sun search desgin for the Psyche spacecraft

    Turner, Eric / Ratnaparkhi, Aditi / Manka, Alex et al. | NTRS | 2019


    Sun Search Design for the Psyche Spacecraft

    Turner, Eric / Ratnaparkhi, Aditi / Manka, Alex et al. | NTRS | 2019


    Solar Array Pointing Requirements Development for the Psyche Spacecraft

    Trofimov, Denis / Snyder, John Steven / Eldred, Dan et al. | NTRS | 2020