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Magnetic-induced force noise in LISA Pathfinder free-falling test masses

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

in Acceleration / Free fall / Gravitational waves / Interplanetary magnetic field / LISA (antenna) / Observatories / Weather

2024

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Magnetic-induced force noise in LISA Pathfinder free-falling test masses

in Acceleration / Free fall / Gravitational waves / Interplanetary magnetic field / LISA (antenna) / Observatories / Weather

2024

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Magnetic-induced force noise in LISA Pathfinder free-falling test masses

in Acceleration / Free fall / Gravitational waves / Interplanetary magnetic field / LISA (antenna) / Observatories / Weather

2024

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Paper

Magnetic-induced force noise in LISA Pathfinder free-falling test masses

Ward, H,

Sopuerta, C F,

Serrano, D,

Pivato, P,

Zweifel, P,

Armano, M,

Fitzsimons, E D,

Meshksar, N,

Binetruy, P,

Karnesis, N,

Weber, W J,

Audley, H,

Harrison, I,

Vitale, S,

Ramos-Castro, J,

Cruise, A M,

Castelli, E,

López-Zaragoza, J P,

Maarschalkerweerd, R,

Wass, P,

Plagnol, E,

Danzmann, K,

Vetrugno, D,

Reiche, J,

Giardini, D,

Hartig, M S,

Texier, D,

Wittchen, A,

Martino, J,

Dolesi, R,

Diepholz, I,

Slutsky, J,

Martin-Polo, L,

Robertson, D I,

Thorpe, J I,

Hoyland, D,

Petiteau, A,

Rivas, F,

Wissel, L,

Inchauspé, H,

Gesa, L,

Hewitson, M,

Lobo, J A,

Kaune, B,

Hueller, M,

Cavalleri, A,

Grzymisch, J,

Giusteri, R,

Sumner, T,

Liu, L,

Killow, C J,

Martin-Porqueras, F,

Jennrich, O,

Baird, J,

Dixon, G,

Bortoluzzi, D,

McNamara, P W,

Russano, G,

Sala, L,

Cesarini, A,

Grimani, C,

Ferroni, V,

Freschi, M,

Gibert, F,

Korsakova, N,

Wanner, G,

LISA Pathfinder Collaboration,

Perreur-Lloyd, M,

Jetzer, P,

Nofrarias, M,

Born, M,

Heinzel, G,

Hollington, D,

Martín, V,

Mendes, J,

Mance, D,

Ferraioli, L,

Mendes, L,

De Deus Silva, M,

Paczkowski, S

2024

Overview

LISA Pathfinder was a mission designed to test key technologies required for gravitational wave detection in space. Magnetically driven forces play a key role in the instrument sensitivity in the low-frequency regime, which corresponds to the measurement band of interest for future space-borne gravitational wave observatories. Magnetic-induced forces couple to the test mass motion, introducing a contribution to the relative acceleration noise between the free falling test masses. In this Letter we present the first complete estimate of this term of the instrument performance model. Our results set the magnetic-induced acceleration noise during the February 2017 noise run of \\( 0.25_-0.08^+0.15\\,fm\\,s^-2/Hz\\) at 1 mHz and \\( 1.01_-0.24^+0.73\\, fm\\,s^-2/Hz\\) at 0.1 mHz. We also discuss how the non-stationarities of the interplanetary magnetic field can affect these values during extreme space weather conditions.

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Publisher

Cornell University Library, arXiv.org

Subject

Acceleration

/ Free fall

/ Gravitational waves

/ Interplanetary magnetic field

/ LISA (antenna)

/ Observatories

/ Weather