Lasers, clocks and drag-free control : exploration of relativistic gravity in space

Written by international experts, this book explores the possibilities for the next 20 years in conducting gravitational experiments in space that would make the most of the new and much-improved existing capabilities. They start from the premise that over the next decade the gravitational physics community will benefit from dramatic improvements in many technologies critical to the tests of gravity. This volume contains a comprehensive presentation of the theory, technology, missions and projects on relativistic gravity in space.

Part I Surveys: Fundamental Physics, Space, Missions and Technologies -- Claus Lammerzahl, Hansjoerg Dittus General Theory of Relativity: Will it Survive the Next Decade? -- Orfeu Bertolami, Jorge Paramos, Slava G. Turyshev Is the Physics Within the Solar System Really Understood? -- Claus Lammerzahl, Oliver Preuss, Hansjoerg Dittus Part II Theory Propagation of Light in the Gravitational Field of Binary Systems to Quadratic Order in Newton's Gravitational Constant -- Gerhard Schafer and Michael H. Brugmann On the Radar Method in General-Relativistic Spacetimes -- Volker Perlick A Universal Tool for Determining the Time Delay and the Frequency Shift of Light: Synge's World Function -- Pierre Teyssandier, Christophe Le Poncin-Lafitte, Bernard Linet Unified Formula for Comparison of Clock Rates and its Applications -- C. Xu, X. Wu, and E. Bruning Gravity Tests and the Pioneer Anomaly -- Marc-Thierry Jaekel, Serge Reynaud Laser Ranging Delay in the Bi-Metric Theory of Gravity -- Sergei M. Kopeikin, Wei-Tou Ni Part III Technologies Measurement of the Shapiro Time Delay Between Drag-free Spacecraft -- Neil Ashby, Peter L. Bender Laser Transponders for High Accuracy Interplanetary Laser Ranging and Time Transfer -- John J. Degnan Unequal-arm Interferometry and Ranging in Space -- Massimo Tinto Technology for Precision Gravity Measurements -- RobertD. Reasenberg and J.D. Phillips Clocks and accelerometers for space tests of fundamental physics -- Lute Maleki, James M. Kohel, Nathan E. Lundblad, John D. Prestage, Robert J. Thompson, and Nan Yu Atom Interferometric Inertial Sensors for Space Applications -- Philippe Bouyer, Franck Pereira dos Santos, Arnaud Landragin and Christian J. Borde Drag-Free Satellite Control -- Stephan Theil Drag-free Control Design with Cubic Test Masses -- Walter Fichter, AlexanderSchleicher, Stefano Vitale Solar Sail Propulsion: An Enabling Technology for Fundamental Physics Missions -- Bernd Dachwald, Wolfgang Seboldt, Claus Lammerzahl Part IV Missions and Projects Testing Relativity with Space Astrometry Missions -- Sergei A. Klioner LISA, the Laser Interferometer Space Antenna, requires the ultimate in Lasers, Clocks, and Drag-Free Control -- Albrecht Rudiger, Gerhard Heinzel, and Michael Troebs Lunar Laser Ranging Contributions to Relativity and Geodesy -- Jurgen Muller, James G. Williams, Slava G. Turyshev Science, Technology and Mission Design for the Laser Astrometric Test Of Relativity -- Slava G. Turyshev, Michael Shao, Kenneth L. Nordtvedt, Jr. LATOR's Measured Science Parameters and Mission Configuration -- Kenneth Nordtvedt OPTIS - High Precision Tests of Special and General Relativity in Space -- Claus Lammerzahl, Hansjoerg Dittus, Achim Peters, Silvia Scheithauer, Stephan Schiller Testing Relativistic Gravity to One Part per Billion -- Wei-Tou Ni, Antonio Pulido Paton, and Yan Xia Exploring the Pioneer Anomaly: Concept Considerations for a Deep Space Gravity Probe Based on Laser Controlled Free Flying Reference Masses -- Ulrich Johann, Hansjoerg Dittus, Claus Lammerzahl Pioneer Anomaly: What Can We Learn from LISA? -- Denis Defrere, Andreas Rathke