Ce lundi 10 février 2020 se tient la leçon inaugurale de la Chaire Georges Lemaître assignée au prof. Stefan Hild de l'Université de Maastricht.
Retrouvez une sélection d'ouvrages papier issus de nos collections mais aussi des ebooks via la bibliographie ci-dessous.
Exposés à l'accueil jusqu'au 17 février
Bibliographie
Álvarez, M.D., 2019. Optical Cavities for Optical Atomic Clocks, Atom Interferometry and Gravitational-Wave Detection.
Auger, G., Plagnol, E. (Eds.), 2017. An overview of gravitational waves: theory, sources and detection. World Scientific, New Jersey.
Barsuglia, M., 2019. Les vagues de l’espace-temps: la révolution des ondes gravitionnelles.
Bassan, M. (Ed.), 2014. Advanced interferometers and the search for gravitational waves: lectures from the first VESF School on Advanced Detectors for Gravitational Waves, Astrophysics and space science library. Springer, Cham.
Bethke, L.B., 2015. Exploring the early universe with gravitational waves, Springer thesis. Springer, Cham.
Böhmer, C.G., 2017. Introduction to general relativity and cosmology, Essential textbooks in physics. World Scientific, Covent Garden, London ; Hackensack, NJ.
Casanueva Diaz, J., 2018. Control of the Gravitational Wave Interferometric Detector Advanced Virgo.
Chua, S.S.Y., 2015. Quantum Enhancement of a 4 km Laser Interferometer Gravitational-Wave Detector. Springer International Publishing ;, Cham.
Damour, T., 2019. Ondes gravitationnelles et trous noirs.
Guidry, M.W., 2019. Modern general relativity: black holes, gravitational waves, and cosmology. Cambridge University Press, Cambridge ; New York, NY.
Gutfreund, H., Renn, J., 2015. The road to relativity: the history and meaning of Einstein’s “The foundation of general relativity” featuring the original manuscript of Einstein’s masterpiece. Princeton University Press, Princeton.
Haasteren, R. van, 2014. Gravitational Wave Detection and Data Analysis for Pulsar Timing Arrays, Springer Theses. Springer, Berlin.
Haster, C.-J., Springer International Publishing, 2017. Globular Cluster Binaries and Gravitational Wave Parameter Estimation Challenges and Efficient Solutions.
Klein, É., Brax, P., Vanhove, P., 2019. Qu’est-ce que la gravité ?: le grand défi de la physique.
Kuntz, I., 2019. Gravitational theories beyond general relativity.
Mingarelli, C.M.F., 2016. Gravitational Wave Astrophysics with Pulsar Timing Arrays.
Ni, W.-T. (Ed.), 2017. One hundred years of general relativity: from genesis and empirical foundations to gravitational waves, cosmology and quantum gravity. World Scientific, New Jersey.
Precision Interferometry in a New Shape Higher-order Laguerre-Gauss Modes for Gravitational Wave Detection, 2014. . Springer International Publishing, Cham.
Rovelli, C., Vighetti, P., 2015. Par-delà le visible: la réalité du monde physique et la gravité quantique. O. Jacob, Paris.
Sopuerta, C.F. (Ed.), 2015. Gravitational wave astrophysics: proceedings of the third Session of the Sant Cugat Forum on Astrophysics ; [was held on April 22-25 2014], Astrophysics and space science proceedings. Springer, Cham.
Wang, Y., 2016. First-stage LISA Data Processing and Gravitational Wave Data Analysis: Ultraprecise Inter-satellite Laser Ranging, Clock Synchronization and Novel Gravitational Wave Data Analysis Algorithms: doctoral thesis accepted by Max Planck institute for gravitational physics, Germany, Springer theses - recognizing outstanding Ph.D. research. Springer, Cham.