Lunar Gravitational-wave Antenna

Research output: Contribution to journalJournal articleResearchpeer-review

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Lunar Gravitational-wave Antenna. / Harms, Jan; Ambrosino, Filippo; Angelini, Lorella; Braito, Valentina; Branchesi, Marica; Brocato, Enzo; Cappellaro, Enrico; Coccia, Eugenio; Coughlin, Michael; Ceca, Roberto Della; Valle, Massimo Della; Dionisio, Cesare; Federico, Costanzo; Formisano, Michelangelo; Frigeri, Alessandro; Grado, Aniello; Izzo, Luca; Marcelli, Augusto; Maselli, Andrea; Olivieri, Marco; Pernechele, Claudio; Possenti, Andrea; Ronchini, Samuele; Serafinelli, Roberto; Severgnini, Paola; Agostini, Maila; Badaracco, Francesca; Bertolini, Alessandro; Betti, Lorenzo; Civitani, Marta Maria; Collette, Christophe; Covino, Stefano; Dall'Osso, Simone; D'Avanzo, Paolo; DeSalvo, Riccardo; Giovanni, Matteo Di; Focardi, Mauro; Giunchi, Carlo; Heijningen, Joris van; Khetan, Nandita; Melini, Daniele; Mitri, Giuseppe; Mow-Lowry, Conor; Naponiello, Luca; Noce, Vladimiro; Oganesyan, Gor; Pace, Emanuele; Paik, Ho Jung; Pajewski, Alessandro; Palazzi, Eliana; Pallavicini, Marco; Pareschi, Giovanni; Pozzobon, Riccardo; Sharma, Ashish; Spada, Giorgio; Stanga, Ruggero; Tagliaferri, Gianpiero; Votta, Raffaele.

In: Astrophysical Journal, Vol. 910, No. 1, 1, 03.2021.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Harms, J, Ambrosino, F, Angelini, L, Braito, V, Branchesi, M, Brocato, E, Cappellaro, E, Coccia, E, Coughlin, M, Ceca, RD, Valle, MD, Dionisio, C, Federico, C, Formisano, M, Frigeri, A, Grado, A, Izzo, L, Marcelli, A, Maselli, A, Olivieri, M, Pernechele, C, Possenti, A, Ronchini, S, Serafinelli, R, Severgnini, P, Agostini, M, Badaracco, F, Bertolini, A, Betti, L, Civitani, MM, Collette, C, Covino, S, Dall'Osso, S, D'Avanzo, P, DeSalvo, R, Giovanni, MD, Focardi, M, Giunchi, C, Heijningen, JV, Khetan, N, Melini, D, Mitri, G, Mow-Lowry, C, Naponiello, L, Noce, V, Oganesyan, G, Pace, E, Paik, HJ, Pajewski, A, Palazzi, E, Pallavicini, M, Pareschi, G, Pozzobon, R, Sharma, A, Spada, G, Stanga, R, Tagliaferri, G & Votta, R 2021, 'Lunar Gravitational-wave Antenna', Astrophysical Journal, vol. 910, no. 1, 1. https://doi.org/10.3847/1538-4357/abe5a7

APA

Harms, J., Ambrosino, F., Angelini, L., Braito, V., Branchesi, M., Brocato, E., Cappellaro, E., Coccia, E., Coughlin, M., Ceca, R. D., Valle, M. D., Dionisio, C., Federico, C., Formisano, M., Frigeri, A., Grado, A., Izzo, L., Marcelli, A., Maselli, A., ... Votta, R. (2021). Lunar Gravitational-wave Antenna. Astrophysical Journal, 910(1), [1]. https://doi.org/10.3847/1538-4357/abe5a7

Vancouver

Harms J, Ambrosino F, Angelini L, Braito V, Branchesi M, Brocato E et al. Lunar Gravitational-wave Antenna. Astrophysical Journal. 2021 Mar;910(1). 1. https://doi.org/10.3847/1538-4357/abe5a7

Author

Harms, Jan ; Ambrosino, Filippo ; Angelini, Lorella ; Braito, Valentina ; Branchesi, Marica ; Brocato, Enzo ; Cappellaro, Enrico ; Coccia, Eugenio ; Coughlin, Michael ; Ceca, Roberto Della ; Valle, Massimo Della ; Dionisio, Cesare ; Federico, Costanzo ; Formisano, Michelangelo ; Frigeri, Alessandro ; Grado, Aniello ; Izzo, Luca ; Marcelli, Augusto ; Maselli, Andrea ; Olivieri, Marco ; Pernechele, Claudio ; Possenti, Andrea ; Ronchini, Samuele ; Serafinelli, Roberto ; Severgnini, Paola ; Agostini, Maila ; Badaracco, Francesca ; Bertolini, Alessandro ; Betti, Lorenzo ; Civitani, Marta Maria ; Collette, Christophe ; Covino, Stefano ; Dall'Osso, Simone ; D'Avanzo, Paolo ; DeSalvo, Riccardo ; Giovanni, Matteo Di ; Focardi, Mauro ; Giunchi, Carlo ; Heijningen, Joris van ; Khetan, Nandita ; Melini, Daniele ; Mitri, Giuseppe ; Mow-Lowry, Conor ; Naponiello, Luca ; Noce, Vladimiro ; Oganesyan, Gor ; Pace, Emanuele ; Paik, Ho Jung ; Pajewski, Alessandro ; Palazzi, Eliana ; Pallavicini, Marco ; Pareschi, Giovanni ; Pozzobon, Riccardo ; Sharma, Ashish ; Spada, Giorgio ; Stanga, Ruggero ; Tagliaferri, Gianpiero ; Votta, Raffaele. / Lunar Gravitational-wave Antenna. In: Astrophysical Journal. 2021 ; Vol. 910, No. 1.

Bibtex

@article{3b9ef6abd5ab40749025be0dea9187bd,
title = "Lunar Gravitational-wave Antenna",
abstract = "Monitoring of vibrational eigenmodes of an elastic body excited by gravitational waves was one of the first concepts proposed for the detection of gravitational waves. At laboratory scale, these experiments became known as resonant bar detectors first developed by Joseph Weber in the 1960s. Due to the dimensions of these bars, the targeted signal frequencies were in the kHz range. Weber also pointed out that monitoring of vibrations of Earth or the Moon could reveal gravitational waves in the mHz band. His Lunar Surface Gravimeter experiment deployed on the Moon by the Apollo 17 crew had a technical failure, which greatly reduced the science scope of the experiment. In this article, we revisit the idea and propose a Lunar Gravitational-Wave Antenna (LGWA). We find that LGWA could become an important partner observatory for joint observations with the space-borne, laser-interferometric detector LISA and at the same time contribute an independent science case due to LGWA's unique features. Technical challenges need to be overcome for the deployment of the experiment, and development of inertial vibration sensor technology lays out a future path for this exciting detector concept.",
keywords = "Gravitational waves, Lunar science",
author = "Jan Harms and Filippo Ambrosino and Lorella Angelini and Valentina Braito and Marica Branchesi and Enzo Brocato and Enrico Cappellaro and Eugenio Coccia and Michael Coughlin and Ceca, {Roberto Della} and Valle, {Massimo Della} and Cesare Dionisio and Costanzo Federico and Michelangelo Formisano and Alessandro Frigeri and Aniello Grado and Luca Izzo and Augusto Marcelli and Andrea Maselli and Marco Olivieri and Claudio Pernechele and Andrea Possenti and Samuele Ronchini and Roberto Serafinelli and Paola Severgnini and Maila Agostini and Francesca Badaracco and Alessandro Bertolini and Lorenzo Betti and Civitani, {Marta Maria} and Christophe Collette and Stefano Covino and Simone Dall'Osso and Paolo D'Avanzo and Riccardo DeSalvo and Giovanni, {Matteo Di} and Mauro Focardi and Carlo Giunchi and Heijningen, {Joris van} and Nandita Khetan and Daniele Melini and Giuseppe Mitri and Conor Mow-Lowry and Luca Naponiello and Vladimiro Noce and Gor Oganesyan and Emanuele Pace and Paik, {Ho Jung} and Alessandro Pajewski and Eliana Palazzi and Marco Pallavicini and Giovanni Pareschi and Riccardo Pozzobon and Ashish Sharma and Giorgio Spada and Ruggero Stanga and Gianpiero Tagliaferri and Raffaele Votta",
year = "2021",
month = mar,
doi = "10.3847/1538-4357/abe5a7",
language = "English",
volume = "910",
journal = "Astrophysical Journal",
issn = "0004-637X",
publisher = "Institute of Physics Publishing, Inc",
number = "1",

}

RIS

TY - JOUR

T1 - Lunar Gravitational-wave Antenna

AU - Harms, Jan

AU - Ambrosino, Filippo

AU - Angelini, Lorella

AU - Braito, Valentina

AU - Branchesi, Marica

AU - Brocato, Enzo

AU - Cappellaro, Enrico

AU - Coccia, Eugenio

AU - Coughlin, Michael

AU - Ceca, Roberto Della

AU - Valle, Massimo Della

AU - Dionisio, Cesare

AU - Federico, Costanzo

AU - Formisano, Michelangelo

AU - Frigeri, Alessandro

AU - Grado, Aniello

AU - Izzo, Luca

AU - Marcelli, Augusto

AU - Maselli, Andrea

AU - Olivieri, Marco

AU - Pernechele, Claudio

AU - Possenti, Andrea

AU - Ronchini, Samuele

AU - Serafinelli, Roberto

AU - Severgnini, Paola

AU - Agostini, Maila

AU - Badaracco, Francesca

AU - Bertolini, Alessandro

AU - Betti, Lorenzo

AU - Civitani, Marta Maria

AU - Collette, Christophe

AU - Covino, Stefano

AU - Dall'Osso, Simone

AU - D'Avanzo, Paolo

AU - DeSalvo, Riccardo

AU - Giovanni, Matteo Di

AU - Focardi, Mauro

AU - Giunchi, Carlo

AU - Heijningen, Joris van

AU - Khetan, Nandita

AU - Melini, Daniele

AU - Mitri, Giuseppe

AU - Mow-Lowry, Conor

AU - Naponiello, Luca

AU - Noce, Vladimiro

AU - Oganesyan, Gor

AU - Pace, Emanuele

AU - Paik, Ho Jung

AU - Pajewski, Alessandro

AU - Palazzi, Eliana

AU - Pallavicini, Marco

AU - Pareschi, Giovanni

AU - Pozzobon, Riccardo

AU - Sharma, Ashish

AU - Spada, Giorgio

AU - Stanga, Ruggero

AU - Tagliaferri, Gianpiero

AU - Votta, Raffaele

PY - 2021/3

Y1 - 2021/3

N2 - Monitoring of vibrational eigenmodes of an elastic body excited by gravitational waves was one of the first concepts proposed for the detection of gravitational waves. At laboratory scale, these experiments became known as resonant bar detectors first developed by Joseph Weber in the 1960s. Due to the dimensions of these bars, the targeted signal frequencies were in the kHz range. Weber also pointed out that monitoring of vibrations of Earth or the Moon could reveal gravitational waves in the mHz band. His Lunar Surface Gravimeter experiment deployed on the Moon by the Apollo 17 crew had a technical failure, which greatly reduced the science scope of the experiment. In this article, we revisit the idea and propose a Lunar Gravitational-Wave Antenna (LGWA). We find that LGWA could become an important partner observatory for joint observations with the space-borne, laser-interferometric detector LISA and at the same time contribute an independent science case due to LGWA's unique features. Technical challenges need to be overcome for the deployment of the experiment, and development of inertial vibration sensor technology lays out a future path for this exciting detector concept.

AB - Monitoring of vibrational eigenmodes of an elastic body excited by gravitational waves was one of the first concepts proposed for the detection of gravitational waves. At laboratory scale, these experiments became known as resonant bar detectors first developed by Joseph Weber in the 1960s. Due to the dimensions of these bars, the targeted signal frequencies were in the kHz range. Weber also pointed out that monitoring of vibrations of Earth or the Moon could reveal gravitational waves in the mHz band. His Lunar Surface Gravimeter experiment deployed on the Moon by the Apollo 17 crew had a technical failure, which greatly reduced the science scope of the experiment. In this article, we revisit the idea and propose a Lunar Gravitational-Wave Antenna (LGWA). We find that LGWA could become an important partner observatory for joint observations with the space-borne, laser-interferometric detector LISA and at the same time contribute an independent science case due to LGWA's unique features. Technical challenges need to be overcome for the deployment of the experiment, and development of inertial vibration sensor technology lays out a future path for this exciting detector concept.

KW - Gravitational waves

KW - Lunar science

U2 - 10.3847/1538-4357/abe5a7

DO - 10.3847/1538-4357/abe5a7

M3 - Journal article

VL - 910

JO - Astrophysical Journal

JF - Astrophysical Journal

SN - 0004-637X

IS - 1

M1 - 1

ER -

ID: 259047046