The path to LISA: a unique collaboration
The LISA Pathfinder mission, which demonstrated key technologies for the LISA gravitational-wave observatory was enabled by a unique collaboration.
Continue reading “The path to LISA: a unique collaboration”Max Rohr (2022) “Experimental investigation of fiber dynamics for the LISA backlink”
Institute: Albert Einstein Institute & University of Hannover
Marie-Sophie Hartig (2022) “Tilt-to-Length Coupling in LISA Pathfinder: Model, Data Analysis and Take-Away Messages for LISA”
Institute: Albert Einstein Institute & University of Hannover
Andreas Wittchen (2021) “Relative Intensity Noise in the LISA Pathfinder Interferometer – Experiments on ground and in space”
Institute: Albert Einstein Institute & University of Hannover
Olaf Hartwig (2021) “Instrumental Modelling and Noise Reduction Algorithms for the Laser Interferometric Space Antenna”
Institute: Albert Einstein Institute & University of Hannover
Yongho Lee (2021) “Development of an advanced tilt actuator for tilt-to-length coupling investigations”
Institute: Albert Einstein Institute & University of Hannover
Brigitte Kaune (2021) “In-orbit Stability Analysis of the LISA Pathfinder Optical Metrology: Photoreceivers and Polarisation”
Institute: Albert Einstein Institute & University of Hannover
GPU-accelerated massive black hole binary parameter estimation with LISA (2020)
Michael L. Katz, Sylvain Marsat, Alvin J. K. Chua, Stanislav Babak, and Shane L. Larson
Abstract: The Laser Interferometer Space Antenna (LISA) is slated for launch in the early 2030s. A main target of the mission is massive black hole binaries that have an expected detection rate of …
Sarah Paczkowski (2020) “Laser Frequency Stabilisation and Interferometer Path Length Differences during the LISA Pathfinder Satellite Mission”
Institute: Albert Einstein Institute & University of Hannover