Literature DB >> 29481269

Beyond the Required LISA Free-Fall Performance: New LISA Pathfinder Results down to 20  μHz.

M Armano1, H Audley2, J Baird3, P Binetruy4, M Born2, D Bortoluzzi5, E Castelli6, A Cavalleri7, A Cesarini8, A M Cruise9, K Danzmann2, M de Deus Silva1, I Diepholz2, G Dixon9, R Dolesi6, L Ferraioli10, V Ferroni6, E D Fitzsimons11, M Freschi1, L Gesa12, F Gibert6, D Giardini10, R Giusteri6, C Grimani8, J Grzymisch13, I Harrison14, G Heinzel2, M Hewitson2, D Hollington3, D Hoyland9, M Hueller6, H Inchauspé4, O Jennrich13, P Jetzer15, N Karnesis2, B Kaune2, N Korsakova16, C J Killow16, J A Lobo12, I Lloro12, L Liu6, J P López-Zaragoza12, R Maarschalkerweerd14, D Mance10, N Meshksar10, V Martín12, L Martin-Polo1, J Martino4, F Martin-Porqueras1, I Mateos12, P W McNamara13, J Mendes14, L Mendes1, M Nofrarias12, S Paczkowski2, M Perreur-Lloyd16, A Petiteau4, P Pivato6, E Plagnol4, J Ramos-Castro17, J Reiche2, D I Robertson16, F Rivas12, G Russano6, J Slutsky18, C F Sopuerta12, T Sumner3, D Texier1, J I Thorpe18, D Vetrugno6, S Vitale6, G Wanner2, H Ward16, P J Wass3,19, W J Weber6, L Wissel2, A Wittchen2, P Zweifel10.   

Abstract

In the months since the publication of the first results, the noise performance of LISA Pathfinder has improved because of reduced Brownian noise due to the continued decrease in pressure around the test masses, from a better correction of noninertial effects, and from a better calibration of the electrostatic force actuation. In addition, the availability of numerous long noise measurement runs, during which no perturbation is purposely applied to the test masses, has allowed the measurement of noise with good statistics down to 20  μHz. The Letter presents the measured differential acceleration noise figure, which is at (1.74±0.05)  fm s^{-2}/sqrt[Hz] above 2 mHz and (6±1)×10  fm s^{-2}/sqrt[Hz] at 20  μHz, and discusses the physical sources for the measured noise. This performance provides an experimental benchmark demonstrating the ability to realize the low-frequency science potential of the LISA mission, recently selected by the European Space Agency.

Year:  2018        PMID: 29481269     DOI: 10.1103/PhysRevLett.120.061101

Source DB:  PubMed          Journal:  Phys Rev Lett        ISSN: 0031-9007            Impact factor:   9.161


  7 in total

Review 1.  The new frontier of gravitational waves.

Authors:  M Coleman Miller; Nicolás Yunes
Journal:  Nature       Date:  2019-04-24       Impact factor: 49.962

2.  The promises of gravitational-wave astronomy.

Authors:  Iain W Martin; Nils Andersson; Jim Hough; Carole Mundell
Journal:  Philos Trans A Math Phys Eng Sci       Date:  2018-05-28       Impact factor: 4.226

3.  Enhancing the precision limits of interferometric satellite geodesy missions.

Authors:  Lorcán O Conlon; Thibault Michel; Giovanni Guccione; Kirk McKenzie; Syed M Assad; Ping Koy Lam
Journal:  NPJ Microgravity       Date:  2022-06-08       Impact factor: 4.970

4.  Relativistic dynamics and extreme mass ratio inspirals.

Authors:  Pau Amaro-Seoane
Journal:  Living Rev Relativ       Date:  2018-05-15       Impact factor: 40.429

5.  LISA Pathfinder Performance Confirmed in an Open-Loop Configuration: Results from the Free-Fall Actuation Mode.

Authors:  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; F Gibert; D Giardini; 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; N Karnesis; B Kaune; N Korsakova; C J Killow; J A Lobo; L Liu; J P López-Zaragoza; R Maarschalkerweerd; D Mance; N Meshksar; V Martín; L Martin-Polo; J Martino; F Martin-Porqueras; I Mateos; P W McNamara; J Mendes; L Mendes; M Nofrarias; S Paczkowski; M Perreur-Lloyd; A Petiteau; P Pivato; E Plagnol; J Ramos-Castro; J Reiche; D I Robertson; F Rivas; G Russano; 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
Journal:  Phys Rev Lett       Date:  2019-09-13       Impact factor: 9.161

6.  Investigation on Stray-Capacitance Influences of Coaxial Cables in Capacitive Transducers for a Space Inertial Sensor.

Authors:  Jianbo Yu; Chengrui Wang; Ying Wang; Yanzheng Bai; Ming Hu; Ke Li; Zhuxi Li; Shaobo Qu; Shuchao Wu; Zebing Zhou
Journal:  Sensors (Basel)       Date:  2020-06-06       Impact factor: 3.576

7.  Probing the nature of black holes: Deep in the mHz gravitational-wave sky.

Authors:  Vishal Baibhav; Leor Barack; Emanuele Berti; Béatrice Bonga; Richard Brito; Vitor Cardoso; Geoffrey Compère; Saurya Das; Daniela Doneva; Juan Garcia-Bellido; Lavinia Heisenberg; Scott A Hughes; Maximiliano Isi; Karan Jani; Chris Kavanagh; Georgios Lukes-Gerakopoulos; Guido Mueller; Paolo Pani; Antoine Petiteau; Surjeet Rajendran; Thomas P Sotiriou; Nikolaos Stergioulas; Alasdair Taylor; Elias Vagenas; Maarten van de Meent; Niels Warburton; Barry Wardell; Vojtěch Witzany; Aaron Zimmerman
Journal:  Exp Astron (Dordr)       Date:  2021-09-03       Impact factor: 2.012
  7 in total

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