Tilt-to-length coupling in LISA Pathfinder: Long-term stability

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autorschaft

  • M. Armano
  • H. Audley
  • J. Baird
  • P. Binetruy
  • M. Born
  • D. Bortoluzzi
  • E. Castelli
  • A. Cavalleri
  • A. Cesarini
  • A. M. Cruise
  • K. Danzmann
  • M. De Deus Silva
  • I. Diepholz
  • G. Dixon
  • R. Dolesi
  • L. Ferraioli
  • V. Ferroni
  • E. D. Fitzsimons
  • M. Freschi
  • L. Gesa
  • D. Giardini
  • F. Gibert
  • R. Giusteri
  • C. Grimani
  • J. Grzymisch
  • I. Harrison
  • M. S. Hartig
  • G. Heinzel
  • M. Hewitson
  • D. Hollington
  • D. Hoyland
  • M. Hueller
  • H. Inchauspé
  • O. Jennrich
  • P. Jetzer
  • U. Johann
  • B. Johlander
  • N. Karnesis
  • B. Kaune
  • C. J. Killow
  • N. Korsakova
  • J. A. Lobo
  • J. P. López-Zaragoza
  • R. Maarschalkerweerd
  • D. Mance
  • V. Martín
  • L. Martin-Polo
  • F. Martin-Porqueras
  • J. Martino
  • P. W. McNamara
  • J. Mendes
  • L. Mendes
  • N. Meshksar
  • M. Nofrarias
  • S. Paczkowski
  • M. Perreur-Lloyd
  • A. Petiteau
  • E. Plagnol
  • J. Ramos-Castro
  • J. Reiche
  • F. Rivas
  • D. I. Robertson
  • G. Russano
  • J. Sanjuan
  • J. Slutsky
  • C. F. Sopuerta
  • T. Sumner
  • D. Texier
  • J. I. Thorpe
  • D. Vetrugno
  • S. Vitale
  • G. Wanner
  • H. Ward
  • P. J. Wass
  • W. J. Weber
  • L. Wissel
  • A. Wittchen
  • P. Zweifel

Organisationseinheiten

Externe Organisationen

  • Europäische Weltraumforschungs- und Technologiezentrum (ESTEC)
  • Max-Planck-Institut für Gravitationsphysik (Albert-Einstein-Institut)
  • Observatoire de Paris (OBSPARIS)
  • Universität Paris-Saclay
  • Università degli Studi di Trento
  • Istituto Nazionale di Fisica Nucleare (INFN)
  • Consiglio Nazionale delle Ricerche (CNR)
  • Universität Urbino „Carlo Bo“
  • University of Birmingham
  • European Space Astronomy Centre
  • ETH Zürich
  • The UK Astronomy Technology Centre (UKATC)
  • Universidad Autónoma de Barcelona (UAB)
  • Institut d'Estudis Espacials de Catalunya (IEEC)
  • Europäisches Raumflugkontrollzentrum (ESOC)
  • Imperial College London
  • Ruprecht-Karls-Universität Heidelberg
  • Universität Zürich (UZH)
  • Airbus Group
  • Aristotle University of Thessaloniki (A.U.Th.)
  • University of Glasgow
  • Universitat Politècnica de Catalunya
  • Universidad Loyola Andalucía
  • University of Florida
  • NASA Goddard Space Flight Center (NASA-GSFC)
Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Aufsatznummer063005
Seitenumfang14
FachzeitschriftPhysical Review D
Jahrgang110
Ausgabenummer6
PublikationsstatusVeröffentlicht - 3 Sept. 2024

Abstract

The tilt-to-length coupling during the LISA Pathfinder mission has been numerically and analytically modeled for particular time spans. In this work, we investigate the long-term stability of the coupling coefficients of this noise. We show that they drifted slowly (by 1 μm/rad and 6×10-6 in 100 days) and were strongly correlated to temperature changes within the satellite (8 μm/rad/K and 30×10-6/K). Based on analytical tilt-to-length coupling models, we attribute the temperature-driven coupling changes to rotations of the test masses and small distortions in the optical setup. Particularly, our findings lead to the conclusion that LISA Pathfinder's optical baseplate was bent during the cooldown experiment, which started in late 2016 and lasted several months.

ASJC Scopus Sachgebiete

Zitieren

Tilt-to-length coupling in LISA Pathfinder: Long-term stability. / Armano, M.; Audley, H.; Baird, J. et al.
in: Physical Review D, Jahrgang 110, Nr. 6, 063005, 03.09.2024.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Armano, M, Audley, H, Baird, J, Binetruy, P, Born, M, Bortoluzzi, D, Castelli, E, Cavalleri, A, Cesarini, A, Cruise, AM, Danzmann, K, De Deus Silva, M, Diepholz, I, Dixon, G, Dolesi, R, Ferraioli, L, Ferroni, V, Fitzsimons, ED, Freschi, M, Gesa, L, Giardini, D, Gibert, F, Giusteri, R, Grimani, C, Grzymisch, J, Harrison, I, Hartig, MS, Heinzel, G, Hewitson, M, Hollington, D, Hoyland, D, Hueller, M, Inchauspé, H, Jennrich, O, Jetzer, P, Johann, U, Johlander, B, Karnesis, N, Kaune, B, Killow, CJ, Korsakova, N, Lobo, JA, López-Zaragoza, JP, Maarschalkerweerd, R, Mance, D, Martín, V, Martin-Polo, L, Martin-Porqueras, F, Martino, J, McNamara, PW, Mendes, J, Mendes, L, Meshksar, N, Nofrarias, M, Paczkowski, S, Perreur-Lloyd, M, Petiteau, A, Plagnol, E, Ramos-Castro, J, Reiche, J, Rivas, F, Robertson, DI, Russano, G, Sanjuan, J, Slutsky, J, Sopuerta, CF, Sumner, T, Texier, D, Thorpe, JI, Vetrugno, D, Vitale, S, Wanner, G, Ward, H, Wass, PJ, Weber, WJ, Wissel, L, Wittchen, A & Zweifel, P 2024, 'Tilt-to-length coupling in LISA Pathfinder: Long-term stability', Physical Review D, Jg. 110, Nr. 6, 063005. https://doi.org/10.48550/arXiv.2407.05852, https://doi.org/10.1103/PhysRevD.110.063005
Armano, M., Audley, H., Baird, J., Binetruy, P., Born, M., Bortoluzzi, D., Castelli, E., Cavalleri, A., Cesarini, A., Cruise, A. M., Danzmann, K., De Deus Silva, M., Diepholz, I., Dixon, G., Dolesi, R., Ferraioli, L., Ferroni, V., Fitzsimons, E. D., Freschi, M., ... Zweifel, P. (2024). Tilt-to-length coupling in LISA Pathfinder: Long-term stability. Physical Review D, 110(6), Artikel 063005. https://doi.org/10.48550/arXiv.2407.05852, https://doi.org/10.1103/PhysRevD.110.063005
Armano M, Audley H, Baird J, Binetruy P, Born M, Bortoluzzi D et al. Tilt-to-length coupling in LISA Pathfinder: Long-term stability. Physical Review D. 2024 Sep 3;110(6):063005. doi: 10.48550/arXiv.2407.05852, 10.1103/PhysRevD.110.063005
Armano, M. ; Audley, H. ; Baird, J. et al. / Tilt-to-length coupling in LISA Pathfinder : Long-term stability. in: Physical Review D. 2024 ; Jahrgang 110, Nr. 6.
Download
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title = "Tilt-to-length coupling in LISA Pathfinder: Long-term stability",
abstract = "The tilt-to-length coupling during the LISA Pathfinder mission has been numerically and analytically modeled for particular time spans. In this work, we investigate the long-term stability of the coupling coefficients of this noise. We show that they drifted slowly (by 1 μm/rad and 6×10-6 in 100 days) and were strongly correlated to temperature changes within the satellite (8 μm/rad/K and 30×10-6/K). Based on analytical tilt-to-length coupling models, we attribute the temperature-driven coupling changes to rotations of the test masses and small distortions in the optical setup. Particularly, our findings lead to the conclusion that LISA Pathfinder's optical baseplate was bent during the cooldown experiment, which started in late 2016 and lasted several months.",
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month = sep,
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language = "English",
volume = "110",
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Download

TY - JOUR

T1 - Tilt-to-length coupling in LISA Pathfinder

T2 - Long-term stability

AU - Armano, M.

AU - Audley, H.

AU - Baird, J.

AU - Binetruy, P.

AU - Born, M.

AU - Bortoluzzi, D.

AU - Castelli, E.

AU - Cavalleri, A.

AU - Cesarini, A.

AU - Cruise, A. M.

AU - Danzmann, K.

AU - De Deus Silva, M.

AU - Diepholz, I.

AU - Dixon, G.

AU - Dolesi, R.

AU - Ferraioli, L.

AU - Ferroni, V.

AU - Fitzsimons, E. D.

AU - Freschi, M.

AU - Gesa, L.

AU - Giardini, D.

AU - Gibert, F.

AU - Giusteri, R.

AU - Grimani, C.

AU - Grzymisch, J.

AU - Harrison, I.

AU - Hartig, M. S.

AU - Heinzel, G.

AU - Hewitson, M.

AU - Hollington, D.

AU - Hoyland, D.

AU - Hueller, M.

AU - Inchauspé, H.

AU - Jennrich, O.

AU - Jetzer, P.

AU - Johann, U.

AU - Johlander, B.

AU - Karnesis, N.

AU - Kaune, B.

AU - Killow, C. J.

AU - Korsakova, N.

AU - Lobo, J. A.

AU - López-Zaragoza, J. P.

AU - Maarschalkerweerd, R.

AU - Mance, D.

AU - Martín, V.

AU - Martin-Polo, L.

AU - Martin-Porqueras, F.

AU - Martino, J.

AU - McNamara, P. W.

AU - Mendes, J.

AU - Mendes, L.

AU - Meshksar, N.

AU - Nofrarias, M.

AU - Paczkowski, S.

AU - Perreur-Lloyd, M.

AU - Petiteau, A.

AU - Plagnol, E.

AU - Ramos-Castro, J.

AU - Reiche, J.

AU - Rivas, F.

AU - Robertson, D. I.

AU - Russano, G.

AU - Sanjuan, J.

AU - Slutsky, J.

AU - Sopuerta, C. F.

AU - Sumner, T.

AU - Texier, D.

AU - Thorpe, J. I.

AU - Vetrugno, D.

AU - Vitale, S.

AU - Wanner, G.

AU - Ward, H.

AU - Wass, P. J.

AU - Weber, W. J.

AU - Wissel, L.

AU - Wittchen, A.

AU - Zweifel, P.

N1 - Publisher Copyright: © 2024 authors. Published by the American Physical Society. Published by the American Physical Society under the terms of the "https://creativecommons.org/licenses/by/4.0/"Creative Commons Attribution 4.0 International license. Further distribution of this work must maintain attribution to the author(s) and the published article's title, journal citation, and DOI. Open access publication funded by the Max Planck Society.

PY - 2024/9/3

Y1 - 2024/9/3

N2 - The tilt-to-length coupling during the LISA Pathfinder mission has been numerically and analytically modeled for particular time spans. In this work, we investigate the long-term stability of the coupling coefficients of this noise. We show that they drifted slowly (by 1 μm/rad and 6×10-6 in 100 days) and were strongly correlated to temperature changes within the satellite (8 μm/rad/K and 30×10-6/K). Based on analytical tilt-to-length coupling models, we attribute the temperature-driven coupling changes to rotations of the test masses and small distortions in the optical setup. Particularly, our findings lead to the conclusion that LISA Pathfinder's optical baseplate was bent during the cooldown experiment, which started in late 2016 and lasted several months.

AB - The tilt-to-length coupling during the LISA Pathfinder mission has been numerically and analytically modeled for particular time spans. In this work, we investigate the long-term stability of the coupling coefficients of this noise. We show that they drifted slowly (by 1 μm/rad and 6×10-6 in 100 days) and were strongly correlated to temperature changes within the satellite (8 μm/rad/K and 30×10-6/K). Based on analytical tilt-to-length coupling models, we attribute the temperature-driven coupling changes to rotations of the test masses and small distortions in the optical setup. Particularly, our findings lead to the conclusion that LISA Pathfinder's optical baseplate was bent during the cooldown experiment, which started in late 2016 and lasted several months.

UR - http://www.scopus.com/inward/record.url?scp=85203598585&partnerID=8YFLogxK

U2 - 10.48550/arXiv.2407.05852

DO - 10.48550/arXiv.2407.05852

M3 - Article

AN - SCOPUS:85203598585

VL - 110

JO - Physical Review D

JF - Physical Review D

SN - 2470-0010

IS - 6

M1 - 063005

ER -