LISA Pathfinder platform stability and drag-free performance

M. Armano et al. (LISA Pathfinder Collaboration)
Phys. Rev. D 99, 082001 – Published 16 April 2019

Abstract

The science operations of the LISA Pathfinder mission have demonstrated the feasibility of sub-femto-g free fall of macroscopic test masses necessary to build a gravitational wave observatory in space such as LISA. While the main focus of interest, i.e., the optical axis or the x-axis, has been extensively studied, it is also of great importance to evaluate the stability of the spacecraft with respect to all the other degrees of freedom (d.o.f.). The current paper is dedicated to such a study: the exhaustive and quantitative evaluation of the imperfections and dynamical effects that impact the stability with respect to its local geodesic. A model of the complete closed-loop system provides a comprehensive understanding of each component of the in-loop coordinates spectral density. As will be presented, this model gives very good agreement with LISA Pathfinder flight data. It allows one to identify the noise source at the origin and the physical phenomena underlying the couplings. From this, the stability performance of the spacecraft with respect to its geodesic is extracted as a function of frequency. Close to 1 mHz, the stability of the spacecraft on the XSC, YSC and ZSC d.o.f. is shown to be of the order of 5.0×1015ms2Hz1/2 for X, 6.0×1014ms2Hz1/2 for Y, and 4.0×1014ms2Hz1/2 for Z. For the angular d.o.f., the values are of the order of 3×1012rads2Hz1/2 for ΘSC, 5×1013rads2Hz1/2 for HSC, and 3×1013rads2Hz1/2 for ΦSC. Below 1 mHz, however, the stability performances are worsened significantly by the effect of the star tracker noise on the closed-loop system. It is worth noting that LISA is expected to be spared from such concerns, as differential wave-front sensing, an attitude sensor system of much higher precision, will be utilized for attitude control.

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  • Received 14 December 2018
  • Corrected 5 November 2019

DOI:https://doi.org/10.1103/PhysRevD.99.082001

© 2019 American Physical Society

Physics Subject Headings (PhySH)

Gravitation, Cosmology & Astrophysics

Corrections

5 November 2019

Correction: Figure 8 was presented with two minor errors in an axis label and key description and has been fixed.

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Issue

Vol. 99, Iss. 8 — 15 April 2019

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