LISA Pathfinder: the experiment and the route to LISA

Armano, M.; Benedetti, M.; Bogenstahl, J.; Bortoluzzi, D.; Bosetti, P.; Brandt, N.; Cavalleri, A.; Ciani, G.; Cristofolini, I.; Cruise, A. M.; Danzmann, K.; Diepholz, I.; Dixon, G.; Dolesi, R.; Fauste, J.; Ferraioli, L.; Fertin, D.; Fichter, W.; Freschi, M.; Garcia, A.; Garcia, C.; Grynagier, A.; Guzman, F.; Fitzsimons, E.; Heinzel, G.; Hewitson, M.; Hollington, D.; Hough, J.; Hueller, M.; Hoyland, D.; Jennrich, O.; Johlander, B.; Killow, C.; Lobo, A.; Mance, D.; Mateos, I.; McNamara, P. W.; Monsky, A.; Nicolini, D.; Nicolodi, D.; Nofrarias, Miquel; Perreur-Lloyd, M.; Plagnol, E.; Racca, G. D.; Ramos-Castro, J.; Robertson, D.; Sanjuan, J.; Schulte, M. O.; Shaul, D. N. A.; Smit, M.; Stagnaro, L.; Steier, F.; Sumner, T. J.; Tateo, N.; Tombolato, D.; Vischer, G.; Vitale, S.; Wanner, Gudrun; Ward, H.; Waschke, S.; Wand, V.; Wass, P.; Weber, W. J.; Ziegler, T.; Zweifel, P.

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LISA Pathfinder: the experiment and the route to LISA

Armano, M., Benedetti, M., Bogenstahl, J., Bortoluzzi, D., Bosetti, P., Brandt, N., et al. (2009). LISA Pathfinder: the experiment and the route to LISA. Classical and Quantum Gravity, 26(9): 094001.

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Armano, M., Author
Benedetti, M., Author
Bogenstahl, J.¹, Author
Bortoluzzi, D., Author
Bosetti, P., Author
Brandt, N., Author
Cavalleri, A., Author
Ciani, G., Author
Cristofolini, I., Author
Cruise, A. M., Author
Danzmann, K.¹, Author
Diepholz, I.¹, Author
Dixon, G., Author
Dolesi, R., Author
Fauste, J., Author
Ferraioli, L., Author
Fertin, D., Author
Fichter, W., Author
Freschi, M., Author
Garcia, A.¹, Author
Garcia, C., AuthorGrynagier, A., AuthorGuzman, F.¹, Author         Fitzsimons, E., AuthorHeinzel, G.¹, Author         Hewitson, M.², Author         Hollington, D., AuthorHough, J., AuthorHueller, M., AuthorHoyland, D., AuthorJennrich, O., AuthorJohlander, B., AuthorKillow, C., AuthorLobo, A., AuthorMance, D., AuthorMateos, I., AuthorMcNamara, P. W., AuthorMonsky, A.¹, Author         Nicolini, D., AuthorNicolodi, D., AuthorNofrarias, Miquel¹, Author         Perreur-Lloyd, M., AuthorPlagnol, E., AuthorRacca, G. D., AuthorRamos-Castro, J., AuthorRobertson, D., AuthorSanjuan, J., AuthorSchulte, M. O., AuthorShaul, D. N. A., AuthorSmit, M., AuthorStagnaro, L., AuthorSteier, F.¹, Author         Sumner, T. J., AuthorTateo, N., AuthorTombolato, D., AuthorVischer, G.¹, AuthorVitale, S., AuthorWanner, Gudrun¹, Author         Ward, H., AuthorWaschke, S., AuthorWand, V.¹, Author         Wass, P., AuthorWeber, W. J., AuthorZiegler, T., AuthorZweifel, P., Author more..

Affiliations:
1Laser Interferometry & Gravitational Wave Astronomy, AEI-Hannover, MPI for Gravitational Physics, Max Planck Society, ou_24010
2Observational Relativity and Cosmology, AEI-Hannover, MPI for Gravitational Physics, Max Planck Society, ou_24011

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Abstract: LISA Pathfinder (LPF) is a science and technology demonstrator planned by the European Space Agency in view of the LISA mission. As a scientific payload, the LISA Technology Package on board LPF will be the most precise geodesics explorer flown as of today, both in terms of displacement and acceleration sensitivity. The challenges embodied by LPF make it a unique mission, paving the way towards the space-borne detection of gravitational waves with LISA. This paper summarizes the basics of LPF, and the progress made in preparing its effective implementation in flight. We hereby give an overview of the experiment philosophy and assumptions to carry on the measurement. We report on the mission plan and hardware design advances and on the progress on detailing measurements and operations. Some light will be shed on the related data processing algorithms. In particular, we show how to single out the acceleration noise from the spacecraft motion perturbations, how to account for dynamical deformation parameters distorting the measurement reference and how to decouple the actuation noise via parabolic free flight.

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Dates: Date issued: 2009

Publication Status: Issued

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Identifiers: eDoc: 435386
ISI: 000265349600002

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Title: Classical and Quantum Gravity

Source Genre: Journal

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Pages: - Volume / Issue: 26 (9) Sequence Number: 094001 Start / End Page: - Identifier: ISSN: 0264-9381