scispace - formally typeset
Search or ask a question

Showing papers by "Michele Armano published in 2013"

Journal ArticleDOI
The LISA Pathfinder mission

[...]

Paul McNamara1, F. Antonucci1, Michele Armano, Heather Audley, G. Auger, Matteo Benedetti, Pierre Binétruy, J. Bogenstahl2, Daniele Bortoluzzi, N. Brandt, M. Caleno, Antonella Cavalleri, G. Congedo, M. Cruise, Karsten Danzmann2, F. De Marchi, M. Diaz-Aguilo, Ingo Diepholz2, G. Dixton, Rita Dolesi, N. Dumbar, J. Fauste, Luigi Ferraioli, Valerio Ferroni, Walter Fichter, Ewan Fitzsimons, M. Freschi, C. García Marirrodriga, R. Gerndt, Lluis Gesa, Ferran Gibert, Domenico Giardini, Catia Grimani, A. Grynagier, Felipe Guzman2, Ian Harrison, Gerhard Heinzel2, Martin Hewitson2, Daniel Hollington, D. Hoyland, M. Hueller, J. Huesler, Oliver Jennrich, Ph. Jetzer, B. Johlander, N. Karnesis, N. Korsakova, Christian J. Killow, X. Llamas, Ivan Lloro, A. Lobo, R. Maarschalkerweerd, S. Madden, Davor Mance, Víctor S. Martín, Ignacio Mateos, José F. F. Mendes, E. Mitchell, Daniele Nicolodi, Miquel Nofrarías2, Michael Perreur-Lloyd, Eric Plagnol, P. Prat, Juan Ramos-Castro, J. Reiche, J. A. Romera Perez, David Robertson, H. Rozemeijer, G. Russano, Alexander Schleicher, D. Shaul, Carlos F. Sopuerta, T. J. Sumner, A.M. Taylor, D. Texier, C. Trenkel, H. B. Tu, Stefano Vitale, Gudrun Wanner2, H. Ward, S. Waschke, Peter Wass, D. Wealthy, S. Wen, W. J. Weber, Tobias Ziegler, Peter Zweifel 
European Space Agency1, Max Planck Society2
07 Feb 2013-International Journal of Modern Physics D
TL;DR: The LISA Pathfinder (LPF) mission as discussed by the authors is the first in-flight test of low frequency gravitational wave detection metrology, which was designed to simulate one arm of space-borne gravitational wave detectors by shrinking the million kilometer scale arm lengths down to a few tens of centimeters.
Abstract: Laser Interferometer Space Antenna (LISA) Pathfinder (formerly known as SMART-2) is a European Space Agency mission designed to pave the way for the joint ESA/NASA LISA mission by testing in flight the critical technologies required for space borne gravitational wave detection; it will put two test masses in a near-perfect gravitational free-fall and control and measure their motion with unprecedented accuracy. This is achieved through technology comprising inertial sensors, high precision laser metrology, drag-free control and an ultra precise micro-Newton propulsion system. LISA Pathfinder (LPF) essentially mimics one arm of space-borne gravitational wave detectors by shrinking the million kilometer scale armlengths down to a few tens of centimeters, giving up the sensitivity to gravitational waves, but keeping the measurement technology. The scientific objective of the LPF mission consists then of the first in-flight test of low frequency gravitational wave detection metrology.

43 citations

Posted Content
State space modelling and data analysis exercises in LISA Pathfinder

[...]

Miquel Nofrarías, F. Antonucci, Michele Armano, Heather Audley, G. Auger, Matteo Benedetti, Pierre Binétruy, Johanna Bogenstahl, Daniele Bortoluzzi, N. Brandt, M. Caleno, Antonella Cavalleri, G. Congedo, M. Cruise, Karsten Danzmann, F. De Marchi, M. Diaz-Aguilo, Ingo Diepholz, G. Dixon, Rita Dolesi, N. Dunbar, J. Fauste, Luigi Ferraioli, V Ferroni W Fichter, E. D. Fitzsimons, M. Freschi, C. García Marirrodriga, R. Gerndt, Lluis Gesa, Ferran Gibert, Domenico Giardini, Catia Grimani, A. Grynagier, Felipe Guzman, Ian Harrison, Gerhard Heinzel, Martin Hewitson, Daniel Hollington, D. Hoyland, M. Hueller, J. Huesler, Oliver Jennrich, Ph. Jetzer, B. Johlander, N. Karnesis, N. Korsakova, Christian J. Killow, X. Llamas, Ivan Lloro, A. Lobo, R. Maarschalkerweerd, S. Madden, Davor Mance, Ignacio Mateos, Paul McNamara, José F. F. Mendes, E. Mitchell, D. Nicolini, Daniele Nicolodi, Michael Perreur-Lloyd, Eric Plagnol, P. Prat, Juan Ramos-Castro, J. Reiche, J. A. Romera Perez, David Robertson, H. Rozemeijer, G. Russano, Alexander Schleicher, D. Shaul, Carlos F. Sopuerta, T. J. Sumner, A.M. Taylor, D. Texier, C. Trenkel, H-B Tu, Stefano Vitale, Gudrun Wanner, H. Ward, S. Waschke, Peter Wass, D. Wealthy, S. Wen, W. J. Weber, Tobias Ziegler, Peter Zweifel 
19 Jun 2013-arXiv: General Relativity and Quantum Cosmology
TL;DR: In this article, the authors give an overview of recent activities, focusing on the improvements in the modelling of the instrument and in the data analysis campaigns performed both with real and simulated data.
Abstract: LISA Pathfinder is a mission planned by the European Space Agency to test the key technologies that will allow the detection of gravitational waves in space. The instrument on-board, the LISA Technology package, will undergo an exhaustive campaign of calibrations and noise characterisation campaigns in order to fully describe the noise model. Data analysis plays an important role in the mission and for that reason the data analysis team has been developing a toolbox which contains all the functionalities required during operations. In this contribution we give an overview of recent activities, focusing on the improvements in the modelling of the instrument and in the data analysis campaigns performed both with real and simulated data.

1 citations

State space modelling and data analysis exercises in LISA Pathfinder

[...]

Miquel Nofrarías1, F. Antonucci, Michele Armano, Heather Audley1, G. Auger, Matteo Benedetti, Pierre Binetruy, J. Bogenstahl1, Daniele Bortoluzzi, N. Brandt, M. Caleno, Antonella Cavalleri, G. Congedo, M. Cruise, Karsten Danzmann1, F. De Marchi, M. Diaz-Aguilo, Ingo Diepholz1, G. Dixon, Rita Dolesi, N. Dunbar, J. Fauste, Luigi Ferraioli, Valerio Ferroni, Walter Fichter, Ewan Fitzsimons, M. Freschi, C. García Marirrodriga, R. Gerndt, Lluis Gesa, Ferran Gibert, Domenico Giardini, Catia Grimani, A. Grynagier, Felipe Guzman1, Ian Harrison, Gerhard Heinzel1, Martin Hewitson1, Daniel Hollington, D. Hoyland, Mauro Hueller, J. Huesler, Oliver Jennrich, Philippe Jetzer, B. Johlander, Nikolaos Karnesis, N. Korsakova1, Christian J. Killow, X. Llamas, Ivan Lloro, Alberto Lobo, R. Maarschalkerweerd, S. Madden, Davor Mance, Víctor S. Martín, Ignacio Mateos, P. McNamara, José F. F. Mendes, E. Mitchell, Daniele Nicolodi, Michael Perreur-Lloyd, Eric Plagnol, P. Prat, Juan Ramos-Castro, J. Reiche1, J. A. Romera Perez, David J. Robertson, H. Rozemeijer, G. Russano, A. Schleicher, D. Shaul, Carlos F. Sopuerta, T. J. Sumner, A.M. Taylor, D. Texier, C. Trenkel, H. B. Tu, Stefano Vitale, Gudrun Wanner1, H. Ward, S. Waschke, Peter Wass, D. Wealthy, S. Wen, W. J. Weber, Tobias Ziegler, Peter Zweifel 
Max Planck Society1
01 Jan 2013
TL;DR: In this article, the authors present an overview of recent activities, focusing on the improvements in the modelling of the instrument and in the data analysis campaigns performed both with real and simulated data.
Abstract: LISA Pathfinder is a mission planned by the European Space Agency (ESA) to test the key technologies that will allow the detection of gravitational waves in space. The instrument on-board, the LISA Technology package, will undergo an exhaustive campaign of calibrations and noise characterisation campaigns in order to fully describe the noise model. Data analysis plays an important role in the mission and for that reason the data analysis team has been developing a toolbox which contains all the functionality required during operations. In this contribution we give an overview of recent activities, focusing on the improvements in the modelling of the instrument and in the data analysis campaigns performed both with real and simulated data.