References
* | 1 | Adelberger, E. G., “New tests of Einstein’s equivalence principle and Newton’s inverse-square law”, Class. Quantum Grav., 18, 2397–2405 (2001). [DOI], [ADS]. |
* | 2 | Adelberger, E. G., Heckel, B. R., Hoedl, S., Hoyle, C. D., Kapner, D. J. and Upadhye, A., “Particle-Physics Implications of a Recent Test of the Gravitational Inverse-Square Law”, Phys. Rev. Lett., 98, 131104 (2007). [DOI], [ADS], [hep-ph/0611223]. |
* | 3 | Adelberger, E. G., Heckel, B. R. and Nelson, A. E., “Tests of the Gravitational Inverse-Square Law”, Annu. Rev. Nucl. Part. Sci., 53, 77–121 (2003). [DOI], [ADS], [arXiv:hep-ph/0307284 [hep-ph]]. |
* | 4 | Adelberger, E. G., Heckel, B. R., Stubbs, C. W. and Rogers, W. F., “Searches for New Macroscopic Forces”, Annu. Rev. Nucl. Sci., 41, 269–320 (1991). [DOI]. |
* | 5 | Alexander, S. and Yunes, N., “Chern-Simons modified general relativity”, Phys. Rep., 480, 1–55 (2009). [DOI], [ADS], [arXiv:0907.2562 [hep-th]]. |
* | 6 | Ali-Haïmoud, Y. and Chen, Y., “Slowly rotating stars and black holes in dynamical Chern-Simons gravity”, Phys. Rev. D, 84, 124033 (2011). [DOI], [ADS], [arXiv:1110.5329 [astro-ph.HE]]. |
* | 7 | Alsing, J., Berti, E., Will, C. M. and Zaglauer, H., “Gravitational radiation from compact binary systems in the massive Brans-Dicke theory of gravity”, Phys. Rev. D, 85, 064041 (2012). [DOI], [ADS], [arXiv:1112.4903 [gr-qc]]. |
* | 8 | Alväger, T., Farley, F. J. M., Kjellman, J. and Wallin, I., “Test of the second postulate of special relativity in the GeV region”, Phys. Lett., 12, 260–262 (1977). [DOI], [ADS]. |
* | 9 | Alvarez, C. and Mann, R. B., “The equivalence principle and anomalous magnetic moment experiments”, Phys. Rev. D, 54, 7097–7107 (1996). [DOI], [gr-qc/9511028]. |
* | 10 | Alvarez, C. and Mann, R. B., “Testing the equivalence principle by Lamb shift energies”, Phys. Rev. D, 54, 5954–5974 (1996). [DOI], [gr-qc/9507040]. |
* | 11 | Alvarez, C. and Mann, R. B., “The equivalence principle and g − 2 experiments”, Phys. Lett. B, 409, 83–87 (1997). [DOI], [gr-qc/9510070]. |
* | 12 | Alvarez, C. and Mann, R. B., “The equivalence principle in the non-baryonic regime”, Phys. Rev. D, 55, 1732–1740 (1997). [DOI], [gr-qc/9609039]. |
* | 13 | Alvarez, C. and Mann, R. B., “Testing the equivalence principle using atomic vacuum energy shifts”, Mod. Phys. Lett. A, 11, 1757–1763 (1997). [gr-qc/9612031]. |
* | 14 | Alves, M. E. S. and Tinto, M., “Pulsar timing sensitivities to gravitational waves from relativistic metric theories of gravity”, Phys. Rev. D, 83, 123529 (2011). [DOI], [ADS], [arXiv:1102.4824 [gr-qc]]. |
* | 15 | Amin, M. A., Wagoner, R. V. and Blandford, R. D., “A subhorizon framework for probing the relationship between the cosmological matter distribution and metric perturbations”, Mon. Not. R. Astron. Soc., 390, 131–142 (2008). [DOI], [ADS], [arXiv:0708.1793]. |
* | 16 | Anderson, J. D., Laing, P. A., Lau, E. L., Liu, A. S., Nieto, M. M. and Turyshev, S. G., “Indication, from Pioneer 10/11, Galileo, and Ulysses Data, of an Apparent Anomalous, Weak, Long-Range Acceleration”, Phys. Rev. Lett., 81, 2858–2861 (1998). [DOI], [ADS], [gr-qc/9808081]. |
* | 17 | Antia, H. M., Chitre, S. M. and Gough, D. O., “Temporal variations in the Sun’s rotational kinetic energy”, Astron. Astrophys., 477, 657–663 (2008). [DOI], [ADS], [arXiv:0711.0799]. |
* | 18 | Antoniadis, I., Arkani-Hamed, N., Dimopoulos, S. and Dvali, G., “New dimensions at a millimeter to a fermi and superstrings at a TeV”, Phys. Lett. B, 436, 257–263 (1998). [DOI], [hep-ph/9804398]. |
* | 19 | Antoniadis, J. et al., “A Massive Pulsar in a Compact Relativistic Binary”, Science, 340, 448 (2013). [DOI], [ADS], [arXiv:1304.6875 [astro-ph.HE]]. |
* | 20 | Antonini, P., Okhapkin, M., Göklü, E. and Schiller, S., “Test of constancy of speed of light with rotating cryogenic optical resonators”, Phys. Rev. A, 71, 050101 (2005). [gr-qc/0504109]. |
* | 21 | Arkani-Hamed, N., Dimopoulos, S. and Dvali, G. R., “The hierarchy problem and new dimensions at a millimeter”, Phys. Lett. B, 429, 263–272 (1998). [DOI], [arXiv:hep-ph/9803315]. |
* | 22 | Arun, K. G., Iyer, B. R., Qusailah, M. S. S. and Sathyaprakash, B. S., “Probing the nonlinear structure of general relativity with black hole binaries”, Phys. Rev. D, 74, 024006 (2006). [DOI], [ADS], [gr-qc/0604067]. |
* | 23 | Arun, K. G. and Will, C. M., “Bounding the mass of the graviton with gravitational waves: effect of higher harmonics in gravitational waveform templates”, Class. Quantum Grav., 26, 155002 (2009). [DOI], [ADS], [arXiv:0904.1190 [gr-qc]]. |
* | 24 | Asada, H., “The light cone effect on the Shapiro time delay”, Astrophys. J. Lett., 574, L69–L70 (2002). [DOI], [astro-ph/0206266]. |
* | 25 | Ashby, N., “Relativistic effects in the Global Positioning System”, in Dadhich, N. and Narlikar, J. V., eds., Gravitation and Relativity: At the Turn of the Millenium, Proceedings of the 15th International Conference on General Relativity and Gravitation (GR-15), held at IUCAA, Pune, India, December 16 – 21, 1997, pp. 231–258, (Inter-University Center for Astronomy and Astrophysics, Pune, India, 1998). |
* | 26 | Ashby, N., “Relativity in the Global Positioning System”, Living Rev. Relativity, 6, lrr-2003-1
(2003). [DOI]. URL (accessed 28 March 2014): http://www.livingreviews.org/lrr-2003-1. |
* | 27 | Ashby, N., Bender, P. L. and Wahr, J. M., “Future gravitational physics tests from ranging to the BepiColombo Mercury planetary orbiter”, Phys. Rev. D, 75, 022001 (2007). [DOI], [ADS]. |
* | 28 | “ATNF Pulsar Catalogue”, web interface to database, Australia Telescope National Facility.
URL (accessed 28 March 2014): http://www.atnf.csiro.au/research/pulsar/psrcat/. |
* | 29 | Baeßler, S., Heckel, B. R., Adelberger, E. G., Gundlach, J. H., Schmidt, U. and Swanson, H. E., “Improved Test of the Equivalence Principle for Gravitational Self-Energy”, Phys. Rev. Lett., 83, 3585–3588 (1999). [DOI], [ADS]. |
* | 30 | Baker, T., Ferreira, P. G. and Skordis, C., “The parameterized post-Friedmann framework for theories of modified gravity: Concepts, formalism, and examples”, Phys. Rev. D, 87, 024015 (2013). [DOI], [ADS], [arXiv:1209.2117 [astro-ph.CO]]. |
* | 31 | Bambi, C., Giannotti, M. and Villante, F. L., “Response of primordial abundances to a general modification of GN and/or of the early universe expansion rate”, Phys. Rev. D, 71, 123524 (2005). [DOI], [astro-ph/0503502]. |
* | 32 | Barausse, E., Palenzuela, C., Ponce, M. and Lehner, L., “Neutron-star mergers in scalar-tensor theories of gravity”, Phys. Rev. D, 87, 081506 (2013). [DOI], [ADS], [arXiv:1212.5053 [gr-qc]]. |
* | 33 | Bartlett, D. F. and Van Buren, D., “Equivalence of Active and Passive Gravitational Mass Using the Moon”, Phys. Rev. Lett., 57, 21–24 (1986). [DOI]. |
* | 34 | Bauch, A. and Weyers, S., “New experimental limit on the validity of local position invariance”, Phys. Rev. D, 65, 081101(R) (2002). [DOI], [ADS]. |
* | 35 | Baumgarte, T. W. and Shapiro, S. L., Numerical Relativity: Solving Einstein’s Equations on the Computer, (Cambridge University Press, Cambridge; New York, 2010). [ADS], [Google Books]. |
* | 36 | Bekenstein, J. D., “Relativistic gravitation theory for the modified Newtonian dynamics paradigm”, Phys. Rev. D, 70, 083509 (2004). [DOI], [ADS], [arXiv:astro-ph/0403694]. |
* | 37 | Bell, J. F. and Damour, T., “A new test of conservation laws and Lorentz invariance in relativistic gravity”, Class. Quantum Grav., 13, 3121–3127 (1996). [DOI], [gr-qc/9606062]. |
* | 38 | Benkhoff, J. et al., “BepiColombo – Comprehensive exploration of Mercury: Mission overview and science goals”, Planet. Space Sci., 58, 2–20 (2010). [DOI], [ADS]. |
* | 39 | Bennett, C. L. et al., “Nine-year Wilkinson Microwave Anisotropy Probe (WMAP) observations: Final maps and results”, Astrophys. J. Suppl. Ser., 208, 20 (2013). [DOI], [ADS], [arXiv:1212.5225 [astro-ph.CO]]. |
* | 40 | Beringer, J. et al. (Particle Data Group), “Review of Particle Physics”, Phys. Rev. D, 86, 010001 (2012). [DOI]. |
* | 41 | Berti, E., Buonanno, A. and Will, C. M., “Estimating spinning binary parameters and testing alternative theories of gravity with LISA”, Phys. Rev. D, 71, 084025 (2005). [DOI], [ADS], [arXiv:gr-qc/0411129]. |
* | 42 | Berti, E., Buonanno, A. and Will, C. M., “Testing general relativity and probing the merger history of massive black holes with LISA”, Class. Quantum Grav., 22, S943–S954 (2005). [DOI], [ADS], [arXiv:gr-qc/0504017]. |
* | 43 | Berti, E., Cardoso, V. and Starinets, A. O., “Quasinormal modes of black holes and black branes”, Class. Quantum Grav., 26, 163001 (2009). [DOI], [ADS], [arXiv:0905.2975 [gr-qc]]. |
* | 44 | Bertotti, B., Iess, L. and Tortora, P., “A test of general relativity using radio links with the Cassini spacecraft”, Nature, 425, 374–376 (2003). [DOI], [ADS]. |
* | 45 | Bezerra, V. B., Klimchitskaya, G. L., Mostepanenko, V. M. and Romero, C., “Constraints on non-Newtonian gravity from measuring the Casimir force in a configuration with nanoscale rectangular corrugations”, Phys. Rev. D, 83, 075004 (2011). [DOI], [ADS], [arXiv:1103.0993 [hep-ph]]. |
* | 46 | Bhat, N. D. R., Bailes, M. and Verbiest, J. P. W., “Gravitational-radiation losses from the pulsar white-dwarf binary PSR J1141 6545”, Phys. Rev. D, 77, 124017 (2008). [DOI], [ADS], [arXiv:0804.0956]. |
* | 47 | Bi, X.-J., Cao, Z., Li, Y. and Yuan, Q., “Testing Lorentz invariance with the ultrahigh energy cosmic ray spectrum”, Phys. Rev. D, 79, 083015 (2009). [DOI], [ADS], [arXiv:0812.0121]. |
* | 48 | Biller, S. D. et al., “Limits to Quantum Gravity Effects on Energy Dependence of the Speed of Light from Observations of TeV Flares in Active Galaxies”, Phys. Rev. Lett., 83, 2108–2111 (1999). [DOI], [arXiv:gr-qc/9810044]. |
* | 49 | Bize, S. et al., “Testing the Stability of Fundamental Constants with 199Hg+ Single-Ion Optical Clock”, Phys. Rev. Lett., 90, 150802 (2003). [DOI], [physics/0212109]. |
* | 50 | Blanchet, L., “Second-post-Newtonian generation of gravitational radiation”, Phys. Rev. D, 51, 2559–2583 (1995). [DOI], [gr-qc/9501030]. |
* | 51 | Blanchet, L., “Gravitational Radiation from Post-Newtonian Sources and Inspiralling Compact
Binaries”, Living Rev. Relativity, 17, lrr-2014-2 (2014). [DOI], [ADS], [arXiv:1310.1528 [gr-qc]].
URL (accessed 28 March 2014): http://www.livingreviews.org/lrr-2014-2. |
* | 52 | Blanchet, L. and Damour, T., “Radiative gravitational fields in general relativity I. General structure of the field outside the source”, Philos. Trans. R. Soc. London, Ser. A, 320, 379–430 (1986). [DOI]. |
* | 53 | Blanchet, L. and Damour, T., “Tail-transported temporal correlations in the dynamics of a gravitating system”, Phys. Rev. D, 37, 1410–1435 (1988). [DOI]. |
* | 54 | Blanchet, L. and Damour, T., “Post-Newtonian generation of gravitational waves”, Ann. Inst. Henri Poincare A, 50, 377–408 (1989). |
* | 55 | Blanchet, L. and Damour, T., “Hereditary effects in gravitational radiation”, Phys. Rev. D, 46, 4304–4319 (1992). [DOI]. |
* | 56 | Blanchet, L., Damour, T., Iyer, B. R., Will, C. M. and Wiseman, A. G., “Gravitational-Radiation Damping of Compact Binary Systems to Second Post-Newtonian Order”, Phys. Rev. Lett., 74, 3515–3518 (1995). [DOI], [gr-qc/9501027]. |
* | 57 | Blanchet, L. and Novak, J., “External field effect of modified Newtonian dynamics in the Solar system”, Mon. Not. R. Astron. Soc., 412, 2530–2542 (2011). [DOI], [ADS], [arXiv:1010.1349 [astro-ph.CO]]. |
* | 58 | Blanchet, L. and Novak, J., “Testing MOND in the Solar System”, arXiv, e-print, (2011). [ADS], [arXiv:1105.5815 [astro-ph.CO]]. |
* | 59 | Blanchet, L. and Sathyaprakash, B. S., “Signal analysis of gravitational wave tails”, Class. Quantum Grav., 11, 2807–2831 (1994). [DOI]. |
* | 60 | Blanchet, L. and Sathyaprakash, B. S., “Detecting the tail effect in gravitational wave experiments”, Phys. Rev. Lett., 74, 1067–1070 (1995). [DOI]. |
* | 61 | Blas, D., Pujolàs, O. and Sibiryakov, S., “Consistent extension of Hořava gravity”, Phys. Rev. Lett., 104, 181302 (2010). [DOI], [ADS], [arXiv:0909.3525 [hep-th]]. |
* | 62 | Blas, D., Pujolàs, O. and Sibiryakov, S., “Models of non-relativistic quantum gravity: the good, the bad and the healthy”, J. High Energy Phys., 4, 18 (2011). [DOI], [ADS], [arXiv:1007.3503 [hep-th]]. |
* | 63 | Blatt, S. et al., “New Limits on Coupling of Fundamental Constants to Gravity Using Sr87 Optical Lattice Clocks”, Phys. Rev. Lett., 100, 140801 (2008). [DOI], [ADS], [arXiv:0801.1874 [physics.atom-ph]]. |
* | 64 | Bolton, A. S., Rappaport, S. and Burles, S., “Constraint on the post-Newtonian parameter γ on galactic size scales”, Phys. Rev. D, 74, 061501 (2006). [DOI], [ADS], [arXiv:astro-ph/0607657]. |
* | 65 | Braginsky, V. B. and Panov, V. I., “Verification of the equivalence of inertial and gravitational mass”, Sov. Phys. JETP, 34, 463–466 (1972). [DOI]. |
* | 66 | Braxmaier, C. et al., “Astrodynamical Space Test of Relativity using Optical Devices I (ASTROD I) – a class-M fundamental physics mission proposal for cosmic vision 2015-2025: 2010 Update”, Exp. Astron., 34, 181–201 (2012). [DOI], [ADS], [arXiv:1104.0060 [gr-qc]]. |
* | 67 | Brecher, K., “Is the speed of light independent of the velocity of the source?”, Phys. Rev. Lett., 39, 1051–1054 (1977). [DOI]. |
* | 68 | Breton, R. P. et al., “Relativistic Spin Precession in the Double Pulsar”, Science, 321, 104 (2008). [DOI], [ADS], [arXiv:0807.2644]. |
* | 69 | Brillet, A. and Hall, J. L., “Improved laser test of the isotropy of space”, Phys. Rev. Lett., 42, 549–552 (1979). [DOI]. |
* | 70 | Brunetti, M., Coccia, E., Fafone, V. and Fucito, F., “Gravitational-wave radiation from compact binary systems in the Jordan–Brans–Dicke theory”, Phys. Rev. D, 59, 044027 (1999). [DOI], [gr-qc/9805056]. |
* | 71 | Burgay, M., “The double pulsar system in its 8th anniversary”, in Science with Parkes at 50
Years Young, 31 Oct. – 4 Nov., 2011, (ATNF / CSIRO, Australia, 2012). [ADS], [arXiv:1210.0985
[astro-ph.IM]]. URL (accessed 5 June 2014): http://www.atnf.csiro.au/research/conferences/Parkes50th/. |
* | 72 | Burgay, M. et al., “An increased estimate of the merger rate of double neutron stars from observations of a highly relativistic system”, Nature, 426, 531–533 (2003). [DOI], [ADS], [arXiv:astro-ph/0312071 [astro-ph]]. |
* | 73 | Carlip, S., “Model-dependence of Shapiro time delay and the ‘speed of gravity/speed of light’ controversy”, Class. Quantum Grav., 21, 3803–3812 (2004). [DOI], [gr-qc/0403060]. |
* | 74 | Chamberlin, S. J. and Siemens, X., “Stochastic backgrounds in alternative theories of gravity: Overlap reduction functions for pulsar timing arrays”, Phys. Rev. D, 85, 082001 (2012). [DOI], [ADS], [arXiv:1111.5661 [astro-ph.HE]]. |
* | 75 | Champeney, D. C., Isaak, G. R. and Khan, A. M., “An ‘aether drift’ experiment based on the Mössbauer effect”, Phys. Lett., 7, 241–243 (1963). [DOI]. |
* | 76 | Chand, H., Petitjean, P., Srianand, R. and Aracil, B., “Probing the time-variation of the fine-structure constant: Results based on Si IV doublets from a UVES sample”, Astron. Astrophys., 430, 47–58 (2005). [DOI], [astro-ph/0408200]. |
* | 77 | Chandrasekhar, S., “The Post-Newtonian Equations of Hydrodynamics in General Relativity.”, Astrophys. J., 142, 1488–1540 (1965). [DOI], [ADS]. |
* | 78 | Chatziioannou, K., Yunes, N. and Cornish, N., “Model-independent test of general relativity: An extended post-Einsteinian framework with complete polarization content”, Phys. Rev. D, 86, 022004 (2012). [DOI], [ADS], [arXiv:1204.2585 [gr-qc]]. |
* | 79 | Chiaverini, J., Smullin, S. J., Geraci, A. A., Weld, D. M. and Kapitulnik, A., “New experimental constraints on non-Newtonian forces below 100 μm”, Phys. Rev. Lett., 90, 151101 (2003). [DOI], [hep-ph/0209325]. |
* | 80 | Chou, C. W., Hume, D. B., Rosenband, T. and Wineland, D. J., “Optical Clocks and Relativity”, Science, 329, 1630–1633 (2010). [DOI], [ADS]. |
* | 81 | Chupp, T. E., Hoare, R. J., Loveman, R. A., Oteiza, E. R., Richardson, J. M., Wagshul, M. E. and Thompson, A. K., “Results of a new test of local Lorentz invariance: A search for mass anisotropy in 21Ne”, Phys. Rev. Lett., 63, 1541–1545 (1989). [DOI]. |
* | 82 | Ciufolini, I., “The 1995–99 measurements of the Lense–Thirring effect using laser-ranged satellites”, Class. Quantum Grav., 17, 2369–2380 (2000). [DOI]. |
* | 83 | Ciufolini, I., Chieppa, F., Lucchesi, D. and Vespe, F., “Test of Lense–Thirring orbital shift due to spin”, Class. Quantum Grav., 14, 2701–2726 (1997). [DOI]. |
* | 84 | Ciufolini, I., Moreno Monge, B., Paolozzi, A., Koenig, R., Sindoni, G., Michalak, G. and Pavlis, E. C., “Monte Carlo simulations of the LARES space experiment to test General Relativity and fundamental physics”, Class. Quantum Grav., 30, 235009 (2013). [DOI], [ADS], [arXiv:1310.2601 [gr-qc]]. |
* | 85 | Ciufolini, I., Paolozzi, A., Pavlis, E. C., Ries, J., Koenig, R., Matzner, R., Sindoni, G. and Neumeyer, H., “Testing gravitational physics with satellite laser ranging”, Eur. Phys. J. Plus, 126, 72 (2011). [DOI], [ADS]. |
* | 86 | Ciufolini, I. and Pavlis, E. C., “A confirmation of the general relativistic prediction of the Lense–Thirring effect”, Nature, 431, 958–960 (2004). [DOI], [ADS]. |
* | 87 | Ciufolini, I., Pavlis, E. C., Chieppa, F., Fernandes-Vieira, E. and Pérez-Mercader, J., “Test of general relativity and measurement of the Lense–Thirring effect with two Earth satellites”, Science, 279, 2100–2103 (1998). [DOI]. |
* | 88 | Ciufolini, I., Pavlis, E. C. and Peron, R., “Determination of frame-dragging using Earth gravity models from CHAMP and GRACE”, New Astron., 11, 527–550 (2006). [DOI], [ADS]. |
* | 89 | Clifton, T., Barrow, J. D. and Scherrer, R. J., “Constraints on the variation of G from primordial nucleosynthesis”, Phys. Rev. D, 71, 123526 (2005). [DOI], [astro-ph/0504418]. |
* | 90 | Coc, A., Olive, K. A., Uzan, J.-P. and Vangioni, E., “Big bang nucleosynthesis constraints on scalar-tensor theories of gravity”, Phys. Rev. D, 73, 083525 (2006). [DOI], [astro-ph/0601299]. |
* | 91 | Coley, A., “Schiff’s Conjecture on Gravitation”, Phys. Rev. Lett., 49, 853–855 (1982). [DOI]. |
* | 92 | Colladay, D. and Kostelecký, V. A., “CPT violation and the standard model”, Phys. Rev. D, 55, 6760–6774 (1997). [DOI], [arXiv:hep-ph/9703464]. |
* | 93 | Colladay, D. and Kostelecký, V. A., “Lorentz-violating extension of the standard model”, Phys. Rev. D, 58, 116002 (1998). [DOI], [arXiv:hep-ph/9809521]. |
* | 94 | Copi, C. J., Davis, A. N. and Krauss, L. M., “New Nucleosynthesis Constraint on the Variation of G”, Phys. Rev. Lett., 92, 171301 (2004). [DOI], [arXiv:astro-ph/0311334]. |
* | 95 | Crelinsten, J., Einstein’s Jury: The Race to Test Relativity, (Princeton University Press, Princeton, 2006). |
* | 96 | Creminelli, P., Nicolis, A., Papucci, M. and Trincherini, E., “Ghosts in massive gravity”, J. High Energy Phys., 2005, 003 (2005). [DOI], [hep-th/0505147]. |
* | 97 | Cutler, C. and Flanagan, É.É., “Gravitational waves from merging compact binaries: How accurately can one extract the binary’s parameters from the inspiral wave form?”, Phys. Rev. D, 49, 2658–2697 (1994). [DOI], [arXiv:gr-qc/9402014]. |
* | 98 | Cutler, C., Hiscock, W. A. and Larson, S. L., “LISA, binary stars, and the mass of the graviton”, Phys. Rev. D, 67, 024015 (2003). [DOI], [ADS], [arXiv:gr-qc/0209101]. |
* | 99 | Cutler, C. et al., “The Last Three Minutes: Issues in Gravitational-Wave Measurements of Coalescing Compact Binaries”, Phys. Rev. Lett., 70, 2984–2987 (1993). [DOI], [astro-ph/9208005]. |
* | 100 | Damour, T., “The problem of motion in Newtonian and Einsteinian gravity”, in Hawking, S. W. and Israel, W., eds., Three Hundred Years of Gravitation, pp. 128–198, (Cambridge University Press, Cambridge; New York, 1987). [ADS]. |
* | 101 | Damour, T. and Dyson, F. J., “The Oklo bound on the time variation of the fine-structure constant revisited”, Nucl. Phys. B, 480, 37–54 (1996). [DOI], [hep-ph/9606486]. |
* | 102 | Damour, T. and Esposito-Farèse, G., “Tensor-multi-scalar theories of gravitation”, Class. Quantum Grav., 9, 2093–2176 (1992). [DOI], [ADS]. |
* | 103 | Damour, T. and Esposito-Farèse, G., “Nonperturbative strong-field effects in tensor-scalar theories of gravitation”, Phys. Rev. Lett., 70, 2220–2223 (1993). [DOI], [ADS]. |
* | 104 | Damour, T. and Esposito-Farèse, G., “Tensor-scalar gravity and binary-pulsar experiments”, Phys. Rev. D, 54, 1474–1491 (1996). [DOI], [ADS], [gr-qc/9602056]. |
* | 105 | Damour, T. and Esposito-Farèse, G., “Testing gravity to second post-Newtonian order: A field-theory approach”, Phys. Rev. D, 53, 5541–5578 (1996). [DOI], [ADS], [gr-qc/9506063]. |
* | 106 | Damour, T. and Esposito-Farèse, G., “Gravitational-wave versus binary-pulsar tests of strong-field gravity”, Phys. Rev. D, 58, 042001 (1998). [DOI], [ADS], [arXiv:gr-qc/9803031]. |
* | 107 | Damour, T., Gopakumar, A. and Iyer, B. R., “Phasing of gravitational waves from inspiralling eccentric binaries”, Phys. Rev. D, 70, 064028 (2004). [DOI], [gr-qc/0404128]. |
* | 108 | Damour, T. and Iyer, B. R., “Post-Newtonian generation of gravitational waves. II. The spin moments”, Ann. Inst. Henri Poincare A, 54, 115–164 (1991). |
* | 109 | Damour, T., Jaranowski, P. and Schäfer, G., “Poincaré invariance in the ADM Hamiltonian approach to the general relativistic two-body problem”, Phys. Rev. D, 62, 021501(R) (2000). [gr-qc/0003051]. Erratum: Phys. Rev. D, 63, 029903(E) (2001). |
* | 110 | Damour, T., Jaranowski, P. and Schäfer, G., “Dimensional regularization of the gravitational interaction of point masses”, Phys. Lett. B, 513, 147–155 (2001). [DOI], [gr-qc/0105038]. |
* | 111 | Damour, T., Jaranowski, P. and Schäfer, G., “Equivalence between the ADM-Hamiltonian and the harmonic-coordinates approaches to the third post-Newtonian dynamics of compact binaries”, Phys. Rev. D, 63, 044021 (2001). [DOI], [gr-qc/0010040]. Erratum: Phys. Rev. D, 66, 029901(E) (2002). |
* | 112 | Damour, T. and Nordtvedt Jr, K. L., “General relativity as a cosmological attractor of tensor-scalar theories”, Phys. Rev. Lett., 70, 2217–2219 (1993). [DOI]. |
* | 113 | Damour, T. and Nordtvedt Jr, K. L., “Tensor-scalar cosmological models and their relaxation toward general relativity”, Phys. Rev. D, 48, 3436–3450 (1993). [DOI]. |
* | 114 | Damour, T., Piazza, F. and Veneziano, G., “Runaway dilaton and equivalence principle violations”, Phys. Rev. Lett., 89, 081601 (2002). [DOI], [arXiv:gr-qc/0204094]. |
* | 115 | Damour, T., Piazza, F. and Veneziano, G., “Violations of the equivalence principle in a dilaton-runaway scenario”, Phys. Rev. D, 66, 046007 (2002). [DOI], [arXiv:hep-th/0205111]. |
* | 116 | Damour, T. and Pichon, B., “Big bang nucleosynthesis and tensor-scalar gravity”, Phys. Rev. D, 59, 123502 (1999). [DOI], [astro-ph/9807176]. |
* | 117 | Damour, T. and Polyakov, A. M., “The string dilaton and a least coupling principle”, Nucl. Phys. B, 423, 532–558 (1994). [DOI], [arXiv:hep-th/9401069]. |
* | 118 | Damour, T. and Schäfer, G., “New tests of the strong equivalence principle using binary-pulsar data”, Phys. Rev. Lett., 66, 2549–2552 (1991). [DOI]. |
* | 119 | Damour, T. and Taylor, J. H., “Strong-field tests of relativistic gravity and binary pulsars”, Phys. Rev. D, 45, 1840–1868 (1992). [DOI]. |
* | 120 | Damour, T. and Vokrouhlický, D., “Equivalence principle and the Moon”, Phys. Rev. D, 53, 4177–4201 (1996). [DOI], [gr-qc/9507016]. |
* | 121 | Daniel, S. F., Linder, E. V., Smith, T. L., Caldwell, R. R., Cooray, A., Leauthaud, A. and Lombriser, L., “Testing general relativity with current cosmological data”, Phys. Rev. D, 81, 123508 (2010). [DOI], [ADS], [arXiv:1002.1962 [astro-ph.CO]]. |
* | 122 | De Felice, A. and Tsujikawa, S., “f(R) Theories”, Living Rev. Relativity, 13, lrr-2010-3 (2010).
[DOI], [ADS], [arXiv:1002.4928]. URL (accessed 28 March 2014): http://www.livingreviews.org/lrr-2010-3. |
* | 123 | de Rham, C., “Massive Gravity”, Living Rev. Relativity, forthcoming (2014). [ADS], [arXiv:1401.4173 [hep-th]]. |
* | 124 | de Sitter, W., “On Einstein’s theory of gravitation and its astronomical consequences. Second paper”, Mon. Not. R. Astron. Soc., 77, 155–184 (1916). [ADS]. |
* | 125 | Deffayet, C., Dvali, G., Gabadadze, G. and Vainshtein, A. I., “Nonperturbative continuity in graviton mass versus perturbative discontinuity”, Phys. Rev. D, 65, 044026 (2002). [DOI], [arXiv:hep-th/0106001]. |
* | 126 | Deller, A. T., Verbiest, J. P. W., Tingay, S. J. and Bailes, M., “Extremely High Precision VLBI Astrometry of PSR J0437-4715 and Implications for Theories of Gravity”, Astrophys. J. Lett., 685, L67–L70 (2008). [DOI], [ADS], [arXiv:0808.1594]. |
* | 127 | Demorest, P. B., Pennucci, T., Ransom, S. M., Roberts, M. S. E. and Hessels, J. W. T., “A two-solar-mass neutron star measured using Shapiro delay”, Nature, 467, 1081–1083 (2010). [DOI], [ADS], [arXiv:1010.5788 [astro-ph.HE]]. |
* | 128 | Di Casola, E., Liberati, S. and Sonego, S., “Nonequivalence of equivalence principles”, arXiv, e-print, (2013). [ADS], [arXiv:1310.7426 [gr-qc]]. |
* | 129 | Dick, R., “Inequivalence of Jordan and Einstein frame: What is the low energy gravity in string theory?”, Gen. Relativ. Gravit., 30, 435–444 (1998). [DOI]. |
* | 130 | Dicke, R. H., “Experimental relativity”, in DeWitt, C. M. and DeWitt, B. S., eds., Relativity, Groups and Topology. Relativité, Groupes et Topologie, Lectures delivered at Les Houches during the 1963 session of the Summer School of Theoretical Physics, University of Grenoble, pp. 165–313, (Gordon and Breach, New York; London, 1964). |
* | 131 | Dicke, R. H., Gravitation and the Universe, Memoirs of the American Philosophical Society. Jayne Lecture for 1969, 78, (American Philosophical Society, Philadelphia, 1970). |
* | 132 | Dickey, J. O. et al., “Lunar Laser Ranging: A Continuing Legacy of the Apollo Program”, Science, 265, 482–490 (1994). [DOI]. |
* | 133 | Doeleman, S. et al., “Imaging an Event Horizon: submm-VLBI of a Super Massive Black Hole”,
in Astro2010: The Astronomy and Astrophysics Decadal Survey – Science White Papers, p. 68,
(National Academy of Sciences, Washington, DC, 2009). [ADS], [arXiv:0906.3899 [astro-ph.CO]].
URL (accessed 10 June 2014): http://sites.nationalacademies.org/bpa/BPA_050603. |
* | 134 | Dossett, J. N. and Ishak, M., “Spatial curvature and cosmological tests of general relativity”, Phys. Rev. D, 86, 103008 (2012). [DOI], [ADS], [arXiv:1205.2422 [astro-ph.CO]]. |
* | 135 | Dossett, J. N., Ishak, M. and Moldenhauer, J., “Testing general relativity at cosmological scales: Implementation and parameter correlations”, Phys. Rev. D, 84, 123001 (2011). [DOI], [ADS], [arXiv:1109.4583 [astro-ph.CO]]. |
* | 136 | Drever, R. W. P., “A search for anisotropy of inertial mass using a free precession technique”, Philos. Mag., 6, 683–687 (1961). [DOI]. |
* | 137 | Dyda, S., Flanagan, É. É. and Kamionkowski, M., “Vacuum instability in Chern-Simons gravity”, Phys. Rev. D, 86, 124031 (2012). [DOI], [ADS], [arXiv:1208.4871 [gr-qc]]. |
* | 138 | Dyson, F. J., “The Fundamental Constants and Their Time Variation”, in Salam, A. and Wigner, E. P., eds., Aspects of Quantum Theory, pp. 213–236, (Cambridge University Press, Cambridge; New York, 1972). [Google Books]. |
* | 139 | Eardley, D. M., “Observable effects of a scalar gravitational field in a binary pulsar”, Astrophys. J. Lett., 196, L59–L62 (1975). [DOI], [ADS]. |
* | 140 | Eddington, A. and Clark, G. L., “The Problem of n Bodies in General Relativity Theory”, Proc. R. Soc. London, Ser. A, 166, 465–475 (1938). [DOI], [ADS]. |
* | 141 | Eddington, A. S., “The Propagation of Gravitational Waves”, Proc. R. Soc. London, Ser. A, 102, 268–282 (1922). [DOI], [ADS]. |
* | 142 | Ehlers, J., Rosenblum, A., Goldberg, J. N. and Havas, P., “Comments on gravitational radiation damping and energy loss in binary systems”, Astrophys. J. Lett., 208, L77–L81 (1976). [DOI], [ADS]. |
* | 143 | Einstein, A., “Näherungsweise Integration der Feldgleichungen der Gravitation”, Sitzungsber.
K. Preuss. Akad. Wiss., Phys.-Math. Kl., 1916, 688–696 (1916). [ADS]. Online version
(accessed 5 June 2014): http://echo.mpiwg-berlin.mpg.de/MPIWG:RA6W5W65. |
* | 144 | Einstein, A., “Über Gravitationswellen”, Sitzungsber. K. Preuss. Akad. Wiss., 1918, 154–167 (1918). [ADS]. |
* | 145 | Einstein, A., Infeld, L. and Hoffmann, B., “The Gravitational Equations and the Problem of Motion”, Ann. Math., 39, 65–100 (1938). [DOI], [ADS]. |
* | 146 | Einstein, A. and Rosen, N., “On Gravitational Waves”, J. Franklin Inst., 223, 43–54 (1937). [DOI], [ADS]. |
* | 147 | Eling, C. and Jacobson, T., “Static post-Newtonian equivalence of general relativity and gravity with a dynamical preferred frame”, Phys. Rev. D, 69, 064005 (2004). [DOI], [gr-qc/0310044]. |
* | 148 | Eötvös, R. v., Pekár, V. and Fekete, E., “Beitrage zum Gesetze der Proportionalität von Trägheit und Gravität”, Ann. Phys. (Leipzig), 68, 11–66 (1922). [DOI], [ADS]. |
* | 149 | Everitt, C. W. F. et al., “Gravity Probe B: Final Results of a Space Experiment to Test General Relativity”, Phys. Rev. Lett., 106, 221101 (2011). [DOI], [ADS], [arXiv:1105.3456 [gr-qc]]. |
* | 150 | Famaey, B. and McGaugh, S. S., “Modified Newtonian Dynamics (MOND): Observational
Phenomenology and Relativistic Extensions”, Living Rev. Relativity, 15, lrr-2012-10 (2012).
[DOI], [ADS], [arXiv:1112.3960 [astro-ph.CO]]. URL (accessed 28 March 2014): http://www.livingreviews.org/lrr-2012-10. |
* | 151 | Farley, F. J. M., Bailey, J., Brown, R. C. A., Giesch, M., Jöstlein, H., van der Meer, S., Picasso, E. and Tannenbaum, M., “The Anomalous Magnetic Moment of the Negative Muon”, Nuovo Cimento, 45, 281–286 (1966). [DOI]. |
* | 152 | Fienga, A., Laskar, J., Kuchynka, P., Manche, H., Desvignes, G., Gastineau, M., Cognard, I. and Theureau, G., “The INPOP10a planetary ephemeris and its applications in fundamental physics”, Celest. Mech. Dyn. Astron., 111, 363–385 (2011). [DOI], [ADS], [arXiv:1108.5546 [astro-ph.EP]]. |
* | 153 | Finn, L. S. and Chernoff, D. F., “Observing binary inspiral in gravitational radiation: One interferometer”, Phys. Rev. D, 47, 2198–2219 (1993). [DOI], [arXiv:gr-qc/9301003]. |
* | 154 | Finn, L. S. and Sutton, P. J., “Bounding the mass of the graviton using binary pulsar observations”, Phys. Rev. D, 65, 044022 (2002). [DOI], [ADS], [arXiv:gr-qc/0109049]. |
* | 155 | Fischbach, E., Gillies, G. T., Krause, D. E., Schwan, J. G. and Talmadge, C. L., “Non-Newtonian gravity and new weak forces: An index of measurements and theory”, Metrologia, 29, 213–260 (1992). [DOI]. |
* | 156 | Fischbach, E., Sudarsky, D., Szafer, A., Talmadge, C. L. and Aronson, S. H., “Reanalysis of the Eötvös experiment”, Phys. Rev. Lett., 56, 3–6 (1986). [DOI]. Erratum: Phys. Rev. Lett. 56 (1986) 1427. |
* | 157 | Fischbach, E. and Talmadge, C. L., “Six years of the fifth force”, Nature, 356, 207–215 (1992). [DOI]. |
* | 158 | Fischbach, E. and Talmadge, C. L., The Search for Non-Newtonian Gravity, (Springer, New York, 1998). [Google Books]. |
* | 159 | Fischer, M. et al., “New limits on the drift of fundamental constants from laboratory measurements”, Phys. Rev. Lett., 92, 230802 (2004). [DOI], [physics/0312086]. |
* | 160 | Fock, V. A., The Theory of Space, Time and Gravitation, (Pergamon Press, Oxford; New York, 1964), 2nd rev. edition. |
* | 161 | Fomalont, E., Kopeikin, S., Lanyi, G. and Benson, J., “Progress in Measurements of the Gravitational Bending of Radio Waves Using the VLBA”, Astrophys. J., 699, 1395–1402 (2009). [DOI], [ADS], [arXiv:0904.3992 [astro-ph.CO]]. |
* | 162 | Fomalont, E. B. and Kopeikin, S. M., “The measurement of the light deflection from Jupiter: experimental results”, Astrophys. J., 598, 704–711 (2003). [DOI], [astro-ph/0302294]. |
* | 163 | Foster, B. Z. and Jacobson, T., “Post-Newtonian parameters and constraints on Einstein-aether theory”, Phys. Rev. D, 73, 064015 (2006). [DOI], [arXiv:gr-qc/0509083 [gr-qc]]. |
* | 164 | Freire, P. C. C. et al., “The relativistic pulsar–white dwarf binary PSR J1738+0333 – II. The most stringent test of scalar–tensor gravity”, Mon. Not. R. Astron. Soc., 423, 3328–3343 (2012). [DOI], [ADS], [arXiv:1205.1450 [astro-ph.GA]]. |
* | 165 | Froeschlé, M., Mignard, F. and Arenou, F., “Determination of the PPN parameter γ with
the Hipparcos data”, in Proceedings from the Hipparcos Venice ’97 Symposium, Held on 13 – 16
May 1997, (ESA, Noordwijk, Netherlands, 1997). URL (accessed 10 June 2014): http://www.rssd.esa.int/?project=HIPPARCOS&page=venice97. |
* | 166 | Fujii, Y., “Oklo Constraint on the Time-Variability of the Fine-Structure Constant”, in Karshenboim, S. G. and Peik, E., eds., Astrophysics, Clocks and Fundamental Constants, 302nd WE-Heraeus-Seminar, June 2003, Bad Honnef, Germany, Lecture Notes in Physics, 648, pp. 167–185, (Springer, Berlin; New York, 2004). [hep-ph/0311026]. |
* | 167 | Fujii, Y. and Maeda, K.-I., The Scalar–Tensor Theory of Gravitation, Cambridge Monographs on Mathematical Physics, (Cambridge University Press, Cambridge; New York, 2007). [ADS]. |
* | 168 | Fujita, R., “Gravitational Waves from a Particle in Circular Orbits around a Schwarzschild Black Hole to the 22nd Post-Newtonian Order”, Prog. Theor. Phys., 128, 971–992 (2012). [DOI], [ADS], [arXiv:1211.5535 [gr-qc]]. |
* | 169 | “Gaia: Science Home Page”, project homepage, ESA. URL (accessed 28 March 2014): http://www.cosmos.esa.int/web/gaia/. |
* | 170 | Gair, J. R., Vallisneri, M., Larson, S. L. and Baker, J. G., “Testing General Relativity
with Low-Frequency, Space-Based Gravitational-Wave Detectors”, Living Rev. Relativity, 16,
lrr-2013-7 (2013). [DOI], [ADS], [arXiv:1212.5575 [gr-qc]]. URL (accessed 28 March 2014): http://www.livingreviews.org/lrr-2013-7. |
* | 171 | Gasperini, M., “On the response of gravitational antennas to dilatonic waves”, Phys. Lett. B, 470, 67–72 (1999). [DOI], [gr-qc/9910019]. |
* | 172 | Geraci, A. A., Smullin, S. J., Weld, D. M., Chiaverini, J. and Kapitulnik, A., “Improved constraints on non-Newtonian forces at 10 microns”, Phys. Rev. D, 78, 022002 (2008). [DOI], [ADS], [arXiv:0802.2350 [hep-ex]]. |
* | 173 | Gleiser, R. J. and Kozameh, C. N., “Astrophysical limits on quantum gravity motivated birefringence”, Phys. Rev. D, 64, 083007 (2001). [DOI], [arXiv:gr-qc/0102093]. |
* | 174 | Godone, A., Novero, C. and Tavella, P., “Null gravitational redshift experiment with nonidentical atomic clocks”, Phys. Rev. D, 51, 319–323 (1995). [DOI]. |
* | 175 | Gopakumar, A. and Iyer, B. R., “Gravitational waves from inspiraling compact binaries: Angular momentum flux, evolution of the orbital elements and the waveform to the second post-Newtonian order”, Phys. Rev. D, 56, 7708–7731 (1997). [DOI], [arXiv:gr-qc/9710075]. |
* | 176 | Gourgoulhon, E., 3+1 Formalism in General Relativity: Bases of Numerical Relativity, Lecture Notes in Physics, 846, (Springer, Berlin; New York, 2012). [DOI], [ADS], [arXiv:gr-qc/0703035 [gr-qc]]. |
* | 177 | “Gravity Probe B: Testing Einstein’s Universe”, project homepage, Stanford University. URL
(accessed 28 March 2014): http://einstein.stanford.edu/. |
* | 178 | Grishchuk, L. P. and Kopeikin, S. M., “The Motion of a Pair of Gravitating Bodies Including the Radiation Reaction Force”, Sov. Astron. Lett., 9, 230–232 (1983). [ADS]. |
* | 179 | Guéna, J., Abgrall, M., Rovera, D., Rosenbusch, P., Tobar, M. E., Laurent, P., Clairon, A. and Bize, S., “Improved Tests of Local Position Invariance Using Rb87 and Cs133 Fountains”, Phys. Rev. Lett., 109, 080801 (2012). [DOI], [ADS], [arXiv:1205.4235 [physics.atom-ph]]. |
* | 180 | Guenther, D. B., Krauss, L. M. and Demarque, P., “Testing the Constancy of the Gravitational Constant Using Helioseismology”, Astrophys. J., 498, 871–876 (1998). [DOI], [ADS]. |
* | 181 | Haugan, M. P., “Energy conservation and the principle of equivalence”, Ann. Phys. (N.Y.), 118, 156–186 (1979). [DOI]. |
* | 182 | Haugan, M. P. and Lämmerzahl, C., “On the interpretation of Michelson–Morley experiments”, Phys. Lett. A, 282, 223–229 (2001). [gr-qc/0103052]. |
* | 183 | Haugan, M. P. and Lämmerzahl, C., “Principles of Equivalence: Their Role in Gravitation Physics and Experiments That Test Them”, in Lämmerzahl, C., Everitt, C. W. F. and Hehl, F. W., eds., Gyros, Clocks, Interferometers...: Testing Relativistic Gravity in Space, Proceedings of a meeting held at Bad Honnef, Germany, 21 – 7 August 1999, Lecture Notes in Physics, 562, pp. 195–212, (Springer, Berlin; New York, 2001). [DOI], [ADS], [gr-qc/0103067]. |
* | 184 | Haugan, M. P. and Will, C. M., “Modern tests of special relativity”, Phys. Today, 40, 69–76 (1987). [DOI]. |
* | 185 | Hawking, S. W., “Black holes in the Brans-Dicke Theory of gravitation”, Commun. Math. Phys., 25, 167–171 (1972). [DOI], [ADS]. |
* | 186 | Hees, A., Folkner, W. M., Jacobson, R. A. and Park, R. S., “Constraints on MOND theory from radio tracking data of the Cassini spacecraft”, arXiv, e-print, (2014). [ADS], [arXiv:1402.6950 [gr-qc]]. |
* | 187 | Hellings, R. W. and Nordtvedt Jr, K. L., “Vector-Metric Theory of Gravity”, Phys. Rev. D, 7, 3593–3602 (1973). [DOI]. |
* | 188 | Hinterbichler, K., “Theoretical aspects of massive gravity”, Rev. Mod. Phys., 84, 671–710 (2012). [DOI], [ADS], [arXiv:1105.3735 [hep-th]]. |
* | 189 | Hojjati, A., Zhao, G.-B., Pogosian, L., Silvestri, A., Crittenden, R. and Koyama, K., “Cosmological tests of general relativity: A principal component analysis”, Phys. Rev. D, 85, 043508 (2012). [DOI], [ADS], [arXiv:1111.3960 [astro-ph.CO]]. |
* | 190 | Hořava, P., “Quantum gravity at a Lifshitz point”, Phys. Rev. D, 79, 084008 (2009). [DOI], [ADS], [arXiv:0901.3775 [hep-th]]. |
* | 191 | Horbatsch, M. W. and Burgess, C. P., “Cosmic black-hole hair growth and quasar OJ287”, J. Cosmol. Astropart. Phys., 2012(05), 010 (2012). [DOI], [ADS], [arXiv:1111.4009 [gr-qc]]. |
* | 192 | Hoyle, C. D., Kapner, D. J., Heckel, B. R., Adelberger, E. G., Gundlach, J. H., Schmidt, U. and Swanson, H. E., “Submillimeter tests of the gravitational inverse-square law”, Phys. Rev. D, 70, 042004 (2004). [DOI], [arXiv:hep-ph/0405262]. |
* | 193 | Hoyle, C. D., Schmidt, U., Heckel, B. R., Adelberger, E. G., Gundlach, J. H., Kapner, D. J. and Swanson, H. E., “Submillimeter Test of the Gravitational Inverse-Square Law: A Search for ‘large’ Extra Dimensions”, Phys. Rev. Lett., 86, 1418–1421 (2001). [DOI], [arXiv:hep-ph/0011014]. |
* | 194 | Hughes, V. W., Robinson, H. G. and Beltran-Lopez, V., “Upper limit for the anisotropy of inertial mass from nuclear resonance experiments”, Phys. Rev. Lett., 4, 342–344 (1960). [DOI]. |
* | 195 | Hulse, R. A., “Nobel Lecture: The discovery of the binary pulsar”, Rev. Mod. Phys., 66, 699–710 (1994). [DOI]. |
* | 196 | Hulse, R. A. and Taylor, J. H., “Discovery of a pulsar in a binary system”, Astrophys. J. Lett., 195, L51–L53 (1975). [DOI], [ADS]. |
* | 197 | Iorio, L., “On the reliability of the so-far performed tests for measuring the Lense–Thirring effect with the LAGEOS satellites”, New Astron., 10, 603–615 (2005). [DOI], [gr-qc/0411024]. |
* | 198 | Itoh, Y. and Futamase, T., “New derivation of a third post-Newtonian equation of motion for relativistic compact binaries without ambiguity”, Phys. Rev. D, 68, 121501(R) (2003). [DOI]. |
* | 199 | Ivanchik, A., Petitjean, P., Varshalovich, D., Aracil, B., Srianand, R., Chand, H., Ledoux, C. and Boissé, P., “A new constraint on the time dependence of the proton-to-electron mass ratio: Analysis of the Q 0347-383 and Q 0405-443 spectra”, Astron. Astrophys., 440, 45–52 (2005). [DOI], [astro-ph/0507174]. |
* | 200 | Ives, H. E. and Stilwell, G. R., “An experimental study of the rate of a moving atomic clock”, J. Opt. Soc. Am., 28, 215–226 (1938). [DOI]. |
* | 201 | Jackiw, R. and Pi, S.-Y., “Chern-Simons modification of general relativity”, Phys. Rev. D, 68, 104012 (2003). [DOI], [ADS], [gr-qc/0308071]. |
* | 202 | Jacobson, T., “Primordial Black Hole Evolution in Tensor-Scalar Cosmology”, Phys. Rev. Lett., 83, 2699–2702 (1999). [DOI], [ADS], [astro-ph/9905303]. |
* | 203 | Jacobson, T., “Undoing the twist: The Hořava limit of Einstein-æther theory”, Phys. Rev. D, 89, 081501 (2014). [DOI], [ADS], [arXiv:1310.5115 [gr-qc]]. |
* | 204 | Jacobson, T. and Mattingly, D., “Gravity with a dynamical preferred frame”, Phys. Rev. D, 64, 024028 (2001). [DOI], [ADS], [arXiv:gr-qc/0007031]. |
* | 205 | Jacobson, T. and Mattingly, D., “Einstein-aether waves”, Phys. Rev. D, 70, 024003 (2004). [DOI], [arXiv:gr-qc/0402005 [gr-qc]]. |
* | 206 | Jaranowski, P. and Schäfer, G., “3rd post-Newtonian higher order Hamilton dynamics for two-body point-mass systems”, Phys. Rev. D, 57, 7274–7291 (1998). [DOI], [gr-qc/9712075]. Erratum: Phys. Rev. D, 63 (2001) 029902. |
* | 207 | Jaranowski, P. and Schäfer, G., “Binary black-hole problem at the third post-Newtonian approximation in the orbital motion: Static part”, Phys. Rev. D, 60, 124003 (1999). [DOI], [gr-qc/9906092]. |
* | 208 | Jaseja, T. S., Javan, A., Murray, J. and Townes, C. H., “Test of special relativity or of the isotropy of space by use of infrared masers”, Phys. Rev., 133, A1221–A1225 (1964). [DOI]. |
* | 209 | Jones, D. I., “Bounding the Mass of the Graviton Using Eccentric Binaries”, Astrophys. J. Lett., 618, L115–L118 (2005). [DOI], [ADS], [arXiv:gr-qc/0411123]. |
* | 210 | Kanekar, N., Langston, G. I., Stocke, J. T., Carilli, C. L. and Menten, K. M., “Constraining Fundamental Constant Evolution with H I and OH Lines”, Astrophys. J. Lett., 746, L16 (2012). [DOI], [ADS], [arXiv:1201.3372 [astro-ph.CO]]. |
* | 211 | Kapner, D. J., Cook, T. S., Adelberger, E. G., Gundlach, J. H., Heckel, B. R., Hoyle, C. D. and Swanson, H. E., “Tests of the Gravitational Inverse-Square Law below the Dark-Energy Length Scale”, Phys. Rev. Lett., 98, 021101 (2007). [DOI], [ADS], [hep-ph/0611184]. |
* | 212 | Katz, J. I., “Comment on ‘Indication, from Pioneer 10/11, Galileo, and Ulysses Data, of an Apparent Anomalous, Weak, Long-Range Acceleration”’, Phys. Rev. Lett., 83, 1892 (1999). [DOI], [ADS], [gr-qc/9809070]. |
* | 213 | Kennefick, D., “Einstein versus the Physical Review”, Phys. Today, 58, 43–48 (2005). [DOI], [ADS]. |
* | 214 | Kennefick, D., Traveling at the Speed of Thought: Einstein and the Quest for Gravitational Waves, (Princeton University Press, Princeton; Woodstock, UK, 2007). [ADS], [Google Books]. |
* | 215 | Kennefick, D., “Testing relativity from the 1919 eclipse – a question of bias”, Phys. Today, 62, 37 (2009). [DOI], [ADS]. |
* | 216 | Khoury, J. and Weltman, A., “Chameleon Fields: Awaiting Surprises for Tests of Gravity in Space”, Phys. Rev. Lett., 93, 171104 (2004). [DOI], [ADS], [astro-ph/0309300]. |
* | 217 | King, J. A., Webb, J. K., Murphy, M. T., Flambaum, V. V., Carswell, R. F., Bainbridge, M. B., Wilczynska, M. R. and Koch, F. E., “Spatial variation in the fine-structure constant - new results from VLT/UVES”, Mon. Not. R. Astron. Soc., 422, 3370–3414 (2012). [DOI], [ADS], [arXiv:1202.4758 [astro-ph.CO]]. |
* | 218 | Klimchitskaya, G. L., Mohideen, U. and Mostepanenko, V. M., “Constraints on corrections to Newtonian gravity from two recent measurements of the Casimir interaction between metallic surfaces”, Phys. Rev. D, 87, 125031 (2013). [DOI], [ADS], [arXiv:1306.4979 [gr-qc]]. |
* | 219 | Kokkotas, K. D. and Schmidt, B. G., “Quasi-Normal Modes of Stars and Black Holes”, Living
Rev. Relativity, 2, lrr-1999-2 (1999). [DOI], [ADS], [arXiv:gr-qc/9909058]. URL (accessed 28
March 2014): http://www.livingreviews.org/lrr-1999-2. |
* | 220 | Konopliv, A. S., Asmar, S. W., Folkner, W. M., Karatekin, Ö., Nunes, D. C., Smrekar, S. E., Yoder, C. F. and Zuber, M. T., “Mars high resolution gravity fields from MRO, Mars seasonal gravity, and other dynamical parameters”, Icarus, 211, 401–428 (2011). [DOI], [ADS]. |
* | 221 | Kopeikin, S. M., “Testing the relativistic effect of the propagation of gravity by very long baseline interferometry”, Astrophys. J. Lett., 556, L1–L5 (2001). [DOI], [gr-qc/0105060]. |
* | 222 | Kopeikin, S. M., “The post-Newtonian treatment of the VLBI experiment on September 8, 2002”, Phys. Lett. A, 312, 147–157 (2003). [DOI], [gr-qc/0212121]. |
* | 223 | Kopeikin, S. M., “The speed of gravity in general relativity and theoretical interpretation of the Jovian deflection experiment”, Class. Quantum Grav., 21, 3251–3286 (2004). [DOI], [gr-qc/0310059]. |
* | 224 | Kopeikin, S. M., “Comment on ‘Model-dependence of Shapiro time delay and the ‘speed of gravity/speed of light’ controversy”’, Class. Quantum Grav., 22, 5181 (2005). [DOI], [gr-qc/0501048]. |
* | 225 | Kopeikin, S. M., “Comments on ‘On the Speed of Gravity and the Jupiter/quasar Measurement’ by S. Samuel”, Int. J. Mod. Phys. D, 15, 273–288 (2006). [DOI], [ADS], [gr-qc/0501001]. |
* | 226 | Kopeikin, S. M. and Fomalont, E. B., “General relativistic model for experimental measurement of the speed of propagation of gravity by VLBI”, in Ros, E., Porcas, R. W., Lobanov, A. P. and Zensus, J. A., eds., Proceedings of the 6th European VLBI Network Symposium, June 25–28 2002, Bonn, Germany, pp. 49–52, (Max-Planck-Institut für Radioastronomie, Bonn, 2002). [gr-qc/0206022]. |
* | 227 | Kostelecký, V. A. and Lane, C. D., “Constraints on Lorentz violation from clock-comparison experiments”, Phys. Rev. D, 60, 116010 (1999). [DOI], [arXiv:hep-ph/9908504]. |
* | 228 | Kostelecký, V. A. and Mewes, M., “Signals for Lorentz violation in electrodynamics”, Phys. Rev. D, 66, 056005 (2002). [DOI], [arXiv:hep-ph/0205211]. |
* | 229 | Kostelecký, V. A. and Russell, N., “Data tables for Lorentz and CPT violation”, Rev. Mod. Phys., 83, 11–31 (2011). [DOI], [arXiv:0801.0287 [hep-ph]]. |
* | 230 | Kostelecký, V. A. and Samuel, S., “Gravitational phenomenology in higher-dimensional theories and strings”, Phys. Rev. D, 40, 1886–1903 (1989). [DOI]. |
* | 231 | Kramer, M., “Determination of the geometry of the PSR B1913+16 system by geodetic precession”, Astrophys. J., 509, 856–860 (1998). [DOI], [astro-ph/9808127]. |
* | 232 | Kramer, M. et al., “Tests of General Relativity from Timing the Double Pulsar”, Science, 314, 97–102 (2006). [DOI], [ADS], [arXiv:astro-ph/0609417]. |
* | 233 | Krisher, T. P., Anderson, J. D. and Campbell, J. K., “Test of the gravitational redshift effect at Saturn”, Phys. Rev. Lett., 64, 1322–1325 (1990). [DOI]. |
* | 234 | Krisher, T. P., Maleki, L., Lutes, G. F., Primas, L. E., Logan, R. T., Anderson, J. D. and Will, C. M., “Test of the isotropy of the one-way speed of light using hydrogen-maser frequency standards”, Phys. Rev. D, 42, 731–734 (1990). [DOI]. |
* | 235 | Krisher, T. P., Morabito, D. D. and Anderson, J. D., “The Galileo solar redshift experiment”, Phys. Rev. Lett., 70, 2213–2216 (1993). [DOI]. |
* | 236 | Królak, A., Kokkotas, K. D. and Schäfer, G., “Estimation of the post-Newtonian parameters in the gravitational-wave emission of a coalescing binary”, Phys. Rev. D, 52, 2089–2111 (1995). [gr-qc/9503013]. |
* | 237 | Lambert, S. B. and Le Poncin-Lafitte, C., “Determining the relativistic parameter γ using very long baseline interferometry”, Astron. Astrophys., 499, 331–335 (2009). [DOI], [ADS], [arXiv:0903.1615 [gr-qc]]. |
* | 238 | Lambert, S. B. and Le Poncin-Lafitte, C., “Improved determination of γ by VLBI”, Astron. Astrophys., 529, A70 (2011). [DOI], [ADS]. |
* | 239 | Lämmerzahl, C., “The Einstein equivalence principle and the search for new physics”, in Giulini, D. J. W., Kiefer, C. and Lämmerzahl, C., eds., Quantum Gravity: From Theory to Experimental Search, Lecture Notes in Physics, 631, pp. 367–394, (Springer, Berlin; New York, 2003). [Google Books]. |
* | 240 | Lamoreaux, S. K., Jacobs, J. P., Heckel, B. R., Raab, F. J. and Fortson, E. N., “New limits on spatial anisotropy from optically-pumped 201Hg and 199Hg”, Phys. Rev. Lett., 57, 3125–3128 (1986). [DOI], [ADS]. |
* | 241 | Lang, R. N., “Compact binary systems in scalar-tensor gravity. II. Tensor gravitational waves to second post-Newtonian order”, Phys. Rev. D, 89, 084014 (2014). [DOI], [ADS], [arXiv:1310.3320 [gr-qc]]. |
* | 242 | Lazaridis, K. et al., “Generic tests of the existence of the gravitational dipole radiation and the variation of the gravitational constant”, Mon. Not. R. Astron. Soc., 400, 805–814 (2009). [DOI], [ADS], [arXiv:0908.0285 [astro-ph.GA]]. |
* | 243 | Lebach, D. E., Corey, B. E., Shapiro, I. I., Ratner, M. I., Webber, J. C., Rogers, A. E. E., Davis, J. L. and Herring, T. A., “Measurement of the Solar Gravitational Deflection of Radio Waves Using Very-Long-Baseline Interferometry”, Phys. Rev. Lett., 75, 1439–1442 (1995). [DOI]. |
* | 244 | Lee, K., Jenet, F. A., Price, R. H., Wex, N. and Kramer, M., “Detecting Massive Gravitons Using Pulsar Timing Arrays”, Astrophys. J., 722, 1589–1597 (2010). [DOI], [ADS], [arXiv:1008.2561 [astro-ph.HE]]. |
* | 245 | Lee, K. J., Jenet, F. A. and Price, R. H., “Pulsar Timing as a Probe of Non-Einsteinian Polarizations of Gravitational Waves”, Astrophys. J., 685, 1304–1319 (2008). [DOI], [ADS]. |
* | 246 | Leefer, N., Weber, C. T. M., Cingöz, A., Torgerson, J. R. and Budker, D., “New Limits on Variation of the Fine-Structure Constant Using Atomic Dysprosium”, Phys. Rev. Lett., 111, 060801 (2013). [DOI], [ADS], [arXiv:1304.6940 [physics.atom-ph]]. |
* | 247 | Lehner, L., “Numerical relativity: a review”, Class. Quantum Grav., 18, R25–R86 (2001). [DOI], [gr-qc/0106072]. |
* | 248 | Lentati, L. et al., “Variations in the fundamental constants in the QSO host J1148+5251 at z = 6.4 and the BR1202-0725 system at z = 4.7”, Mon. Not. R. Astron. Soc., 430, 2454–2463 (2013). [DOI], [ADS], [arXiv:1211.3316 [astro-ph.CO]]. |
* | 249 | Levi-Civita, T., “Astronomical consequences of the relativistic two-body problem”, Am. J. Math., 59, 225–334 (1937). [DOI]. |
* | 250 | Li, T. G. F. et al., “Towards a generic test of the strong field dynamics of general relativity using compact binary coalescence: Further investigations”, J. Phys.: Conf. Ser., 363, 012028 (2012). [DOI], [ADS], [arXiv:1111.5274 [gr-qc]]. |
* | 251 | Liberati, S., “Tests of Lorentz invariance: a 2013 update”, Class. Quantum Grav., 30, 133001 (2013). [DOI], [ADS], [arXiv:1304.5795 [gr-qc]]. |
* | 252 | Lightman, A. P. and Lee, D. L., “Restricted proof that the weak equivalence principle implies the Einstein equivalence principle”, Phys. Rev. D, 8, 364–376 (1973). [DOI]. |
* | 253 | Lineweaver, C. H., Tenorio, L., Smoot, G. F., Keegstra, P., Banday, A. J. and Lubin, P., “The dipole observed in the COBE DMR 4 year data”, Astrophys. J., 470, 38–42 (1996). [DOI]. |
* | 254 | Lipa, J. A., Nissen, J. A., Wang, S., Stricker, D. A. and Avaloff, D., “New limit on signals of Lorentz violation in electrodynamics”, Phys. Rev. Lett., 90, 060403 (2003). [DOI], [physics/0302093]. |
* | 255 | Liu, K., Wex, N., Kramer, M., Cordes, J. M. and Lazio, T. J. W., “Prospects for probing the spacetime of Sgr A* with pulsars”, Astrophys. J., 747, 1 (2012). [DOI], [ADS], [arXiv:1112.2151 [astro-ph.HE]]. |
* | 256 | Lobo, J. A., “Spherical GW detectors and geometry”, in Coccia, E., Veneziano, G. and Pizzella, G., eds., Second Edoardo Amaldi Conference on Gravitational Waves, Proceedings of the conference, held at CERN, Switzerland, 1 – 4 July, 1997, Edoardo Amaldi Foundation Series, pp. 168–179, (World Scientific, Singapore, 1998). [ADS]. |
* | 257 | Long, J. C., Chan, H. W., Churnside, A. B., Gulbis, E. A., Varney, M. C. M. and Price, J. C., “Upper limits to submillimetre-range forces from extra space-time dimensions”, Nature, 421, 922–925 (2003). [DOI], [hep-ph/0210004]. |
* | 258 | Long, J. C., Chan, H. W. and Price, J. C., “Experimental status of gravitational-strength forces in the sub-centimeter regime”, Nucl. Phys. B, 539, 23–34 (1999). [DOI], [hep-ph/9805217]. |
* | 259 | LoPresto, J. C., Schrader, C. and Pierce, A. K., “Solar gravitational redshift from the infrared oxygen triplet”, Astrophys. J., 376, 757–760 (1991). [DOI]. |
* | 260 | Lorentz, H. A. and Droste, J., “The motion of a system of bodies under the influence of their mutual attraction, according to Einstein’s theory”, in The Collected Papers of H.A. Lorentz, Vol. 5, pp. 330–355, (Nijhoff, The Hague, 1937). [DOI], Translated from Versl. K. Akad. Wetensch. Amsterdam, 26, 392, 1917. |
* | 261 | Lorimer, D. R., “Binary and Millisecond Pulsars”, Living Rev. Relativity, 11, lrr-2008-8 (2008).
[DOI], [ADS], [arXiv:0811.0762]. URL (accessed 28 March 2014): http://www.livingreviews.org/lrr-2008-8. |
* | 262 | Lucchesi, D. M. and Peron, R., “Accurate Measurement in the Field of the Earth of the General-Relativistic Precession of the LAGEOS II Pericenter and New Constraints on Non-Newtonian Gravity”, Phys. Rev. Lett., 105, 231103 (2010). [DOI], [ADS], [arXiv:1106.2905 [gr-qc]]. |
* | 263 | Lucchesi, D. M. and Peron, R., “LAGEOS II pericenter general relativistic precession (1993-2005): Error budget and constraints in gravitational physics”, Phys. Rev. D, 89, 082002 (2014). [DOI], [ADS]. |
* | 264 | Lynch, R. S. et al., “The Green Bank Telescope 350 MHz drift-scan survey II: Data analysis and the timing of 10 new pulsars, including a relativistic binary”, Astrophys. J., 763, 81 (2013). [DOI], [ADS], [arXiv:1209.4296 [astro-ph.HE]]. |
* | 265 | Lyne, A. G. et al., “A Double-Pulsar System: A Rare Laboratory for Relativistic Gravity and Plasma Physics”, Science, 303, 1153–1157 (2004). [DOI], [arXiv:astro-ph/0401086]. |
* | 266 | Maeda, K.-I., “On time variation of fundamental constants in superstring theories”, Mod. Phys. Lett. A, 3, 243–249 (1988). [DOI]. |
* | 267 | Maggiore, M. and Nicolis, A., “Detection strategies for scalar gravitational waves with interferometers and resonant spheres”, Phys. Rev. D, 62, 024004 (2000). [DOI], [ADS], [arXiv:gr-qc/9907055]. |
* | 268 | Magueijo, J., “New varying speed of light theories”, Rep. Prog. Phys., 66, 2025–2068 (2003). [DOI], [arXiv:astro-ph/0305457]. |
* | 269 | Malaney, R. A. and Mathews, G. J., “Probing the early universe: A review of primordial nucleosynthesis beyond the standard big bang”, Phys. Rep., 229, 147–219 (1993). [DOI]. |
* | 270 | Maleki, L. and Prestage, J. D., “SpaceTime Mission: Clock test of relativity at four solar radii”, in Lämmerzahl, C., Everitt, C. W. F. and Hehl, F. W., eds., Gyros, Clocks, and Interferometers...: Testing Relativistic Gravity in Space, Proceedings of a meeting held in Bad Honnef, Germany, August 21 – 27, 1999, Lecture Notes in Physics, 562, p. 369, (Springer, Berlin; New York, 2001). |
* | 271 | Marion, H. et al., “A search for variations of fundamental constants using atomic fountain clock”, Phys. Rev. Lett., 90, 150801 (2003). [DOI], [physics/0212112]. |
* | 272 | Marka, Z. and Marka, S., “Selected articles from ‘The 8th Edoardo Amaldi Conference on Gravitational Waves (Amaldi 8)’, Columbia University, New York, 22 – 26 June 2009”, Class. Quantum Grav., 27, 080301 (2010). [DOI]. |
* | 273 | Mattingly, D., “Modern Tests of Lorentz Invariance”, Living Rev. Relativity, 8, lrr-2005-5
(2005). [DOI], [ADS], [arXiv:gr-qc/0502097]. URL (accessed 28 March 2014): http://www.livingreviews.org/lrr-2005-5. |
* | 274 | Mattingly, D. and Jacobson, T. A., “Relativistic Gravity with a Dynamical Preferred Frame”, in Kostelecký, V. A., ed., CPT and Lorentz Symmetry II, Proceedings of the Second Meeting, held at Indiana University, Bloomington, August 15–18, 2001, pp. 331–335, (World Scientific, Singapore; River Edge, 2002). [gr-qc/0112012]. |
* | 275 | Mecheri, R., Abdelatif, T., Irbah, A., Provost, J. and Berthomieu, G., “New values of gravitational moments J2 and J4 deduced from helioseismology”, Solar Phys., 222, 191–197 (2004). [DOI], [ADS]. |
* | 276 | Mercuri, S. and Taveras, V., “Interaction of the Barbero-Immirzi field with matter and pseudoscalar perturbations”, Phys. Rev. D, 80, 104007 (2009). [DOI], [ADS], [arXiv:0903.4407 [gr-qc]]. |
* | 277 | Merkowitz, S. M., “Tests of Gravity Using Lunar Laser Ranging”, Living Rev. Relativity, 13,
lrr-2010-7 (2010). [DOI], [ADS]. URL (accessed 28 March 2014): http://www.livingreviews.org/lrr-2010-7. |
* | 278 | Merlet, S., Bodart, Q., Malossi, N., Landragin, A., Pereira Dos Santos, F., Gitlein, O. and Timmen, L., “Comparison between two mobile absolute gravimeters: optical versus atomic interferometers”, Metrologia, 47, L9–L11 (2010). [DOI], [ADS], [arXiv:1005.0357 [physics.atom-ph]]. |
* | 279 | Michelson, A. A. and Morley, E. W., “On the Relative Motion of the Earth and the
Luminiferous Ether”, Am. J. Sci., 34, 333–345 (1887). [DOI]. Online version (accessed 28 March
2014): http://www.aip.org/history/gap/Michelson/Michelson.html. |
* | 280 | “MICROSCOPE (MICRO-Satellite à traînée Compensée pour l’Observation du Principe
d’Equivalence)”, project homepage, CNES. URL (accessed 28 March 2014): http://smsc.cnes.fr/MICROSCOPE/. |
* | 281 | Mignard, F., “Fundamental Physics with GAIA”, in Bienaymé, O. and Turon, C., eds., GAIA: A European Space Project, Summer School, held in Les Houches, France, 14 – 18 May 2001, EAS Publications Series, 2, pp. 107–121, (EDP Sciences, Les Ulis, 2002). [DOI], [ADS]. |
* | 282 | Milani, A., Vokrouhlický, D., Villani, D., Bonanno, C. and Rossi, A., “Testing general relativity with the BepiColombo radio science experiment”, Phys. Rev. D, 66, 082001 (2002). [DOI]. |
* | 283 | Milgrom, M., “A modification of the Newtonian dynamics as a possible alternative to the hidden mass hypothesis”, Astrophys. J., 270, 365–370 (1983). [DOI], [ADS]. |
* | 284 | Milgrom, M., “MOND effects in the inner Solar system”, Mon. Not. R. Astron. Soc., 399, 474–486 (2009). [DOI], [ADS], [arXiv:0906.4817 [astro-ph.CO]]. |
* | 285 | Mino, Y., Sasaki, M., Shibata, M., Tagoshi, H. and Tanaka, T., “Black Hole Perturbation”, Prog. Theor. Phys. Suppl., 128, 1–121 (1997). [DOI], [gr-qc/9712057]. |
* | 286 | Mirshekari, S. and Will, C. M., “Compact binary systems in scalar-tensor gravity: Equations of motion to 2.5 post-Newtonian order”, Phys. Rev. D, 87, 084070 (2013). [DOI], [ADS], [arXiv:1301.4680 [gr-qc]]. |
* | 287 | Mirshekari, S., Yunes, N. and Will, C. M., “Constraining Lorentz-violating, modified dispersion relations with gravitational waves”, Phys. Rev. D, 85, 024041 (2012). [DOI], [ADS], [arXiv:1110.2720 [gr-qc]]. |
* | 288 | Mishra, C. K., Arun, K. G., Iyer, B. R. and Sathyaprakash, B. S., “Parametrized tests of post-Newtonian theory using Advanced LIGO and Einstein Telescope”, Phys. Rev. D, 82, 064010 (2010). [DOI], [ADS], [arXiv:1005.0304 [gr-qc]]. |
* | 289 | Misner, C. W., Thorne, K. S. and Wheeler, J. A., Gravitation, (W. H. Freeman, San Francisco, 1973). [ADS]. |
* | 290 | Mitchell, T. and Will, C. M., “Post-Newtonian gravitational radiation and equations of motion via direct integration of the relaxed Einstein equations. V. Evidence for the strong equivalence principle to second post-Newtonian order”, Phys. Rev. D, 75, 124025 (2007). [DOI], [ADS], [arXiv:0704.2243 [gr-qc]]. |
* | 291 | Modenini, D. and Tortora, P., “Pioneer 10 and 11 orbit determination analysis shows no discrepancy with Newton-Einstein’s laws of gravity”, arXiv, e-print, (2013). [ADS], [arXiv:1311.4978 [gr-qc]]. |
* | 292 | Moura, F. and Schiappa, R., “Higher-derivative-corrected black holes: perturbative stability and absorption cross section in heterotic string theory”, Class. Quantum Grav., 24, 361–386 (2007). [DOI], [ADS], [hep-th/0605001]. |
* | 293 | Müller, H., Herrmann, S., Braxmaier, C., Schiller, S. and Peters, A., “Modern Michelson–Morley experiment using cryogenic optical resonators”, Phys. Rev. Lett., 91, 020401 (2003). [DOI], [physics/0305117]. |
* | 294 | Müller, H., Peters, A. and Chu, S., “A precision measurement of the gravitational redshift by the interference of matter waves”, Nature, 463, 926–929 (2010). [DOI], [ADS]. |
* | 295 | Müller, J., Schneider, M., Nordtvedt Jr, K. L. and Vokrouhlický, D., “What can LLR provide to relativity?”, in Piran, T., ed., The Eighth Marcel Grossmann Meeting on Recent Developments in Theoretical and Experimental General Relativity, Gravitation and Relativistic Field Theories, Proceedings of the meeting held at the Hebrew University of Jerusalem, June 22–27, 1997, pp. 1151–1153, (World Scientific, Singapore, 1999). |
* | 296 | Murphy, M. T., Webb, J. K., Flambaum, V. V., Dzuba, V. A., Churchill, C. W., Prochaska, J. X., Barrow, J. D. and Wolfe, A. M., “Possible evidence for a variable fine-structure constant from QSO absorption lines: motivations, analysis and results”, Mon. Not. R. Astron. Soc., 327, 1208–1222 (2001). [DOI], [astro-ph/0012419]. |
* | 297 | Murphy, T. W. et al., “Laser ranging to the lost Lunokhod 1 reflector”, Icarus, 211, 1103–1108 (2011). [DOI], [ADS], [arXiv:1009.5720 [astro-ph.EP]]. |
* | 298 | Murphy Jr, T. W., Adelberger, E. G., Battat, J. B. R., Hoyle, C. D., Johnson, N. H., McMillan, R. J., Stubbs, C. W. and Swanson, H. E., “APOLLO: millimeter lunar laser ranging”, Class. Quantum Grav., 29, 184005 (2012). [DOI], [ADS]. |
* | 299 | Narayan, R. and McClintock, J. E., “Advection-dominated accretion and the black hole event horizon”, New Astron. Rev., 51, 733–751 (2008). [DOI], [ADS], [arXiv:0803.0322]. |
* | 300 | Ni, W.-T., “Equivalence principles and electromagnetism”, Phys. Rev. Lett., 38, 301–304 (1977). [DOI]. |
* | 301 | Nishizawa, A., Taruya, A., Hayama, K., Kawamura, S. and Sakagami, M.-A., “Probing nontensorial polarizations of stochastic gravitational-wave backgrounds with ground-based laser interferometers”, Phys. Rev. D, 79, 082002 (2009). [DOI], [ADS], [arXiv:0903.0528 [astro-ph.CO]]. |
* | 302 | Nishizawa, A., Taruya, A. and Kawamura, S., “Cosmological test of gravity with polarizations of stochastic gravitational waves around 0.1–1 Hz”, Phys. Rev. D, 81, 104043 (2010). [DOI], [ADS], [arXiv:0911.0525 [gr-qc]]. |
* | 303 | Nordström, G., “Zur Theorie der Gravitation vom Standpunkt des Relativitätsprinzips”, Ann. Phys. (Leipzig), 42, 533–554 (1913). [DOI]. |
* | 304 | Nordtvedt Jr, K. L., “Equivalence Principle for Massive Bodies. I. Phenomenology”, Phys. Rev., 169, 1014–1016 (1968). [DOI], [ADS]. |
* | 305 | Nordtvedt Jr, K. L., “Equivalence Principle for Massive Bodies. II. Theory”, Phys. Rev., 169, 1017–1025 (1968). [DOI], [ADS]. |
* | 306 | Nordtvedt Jr, K. L., “Existence of the gravitomagnetic interaction”, Int. J. Theor. Phys., 27, 1395–1404 (1988). [DOI]. |
* | 307 | Nordtvedt Jr, K. L., “Gravitomagnetic interaction and laser ranging to Earth satellites”, Phys. Rev. Lett., 61, 2647–2649 (1988). [DOI]. |
* | 308 | Nordtvedt Jr, K. L., “Ġ∕G and a cosmological acceleration of gravitationally compact bodies”, Phys. Rev. Lett., 65, 953–956 (1990). [DOI]. |
* | 309 | Nordtvedt Jr, K. L., “The Relativistic Orbit Observables in Lunar Laser Ranging”, Icarus, 114, 51–62 (1995). [DOI]. |
* | 310 | Nordtvedt Jr, K. L., “Testing Newton’s third law using lunar laser ranging”, Class. Quantum Grav., 18, L133–L137 (2001). [DOI]. |
* | 311 | Ohanian, H. C., “Comment on the Schiff Conjecture”, Phys. Rev. D, 10, 2041–2042 (1974). [DOI]. |
* | 312 | Olive, K. A., Pospelov, M., Qian, Y.-Z., Manhès, G., Vangioni-Flam, E., Coc, A. and Cassé, M., “Reexamination of the 187Re bound on the variation of fundamental couplings”, Phys. Rev. D, 69, 027701 (2004). [DOI], [astro-ph/0309252]. |
* | 313 | Palenzuela, C., Barausse, E., Ponce, M. and Lehner, L., “Dynamical scalarization of neutron stars in scalar-tensor gravity theories”, Phys. Rev. D, 89, 044024 (2014). [DOI], [ADS], [arXiv:1310.4481 [gr-qc]]. |
* | 314 | Pani, P. and Cardoso, V., “Are black holes in alternative theories serious astrophysical candidates? The case for Einstein-dilaton-Gauss-Bonnet black holes”, Phys. Rev. D, 79, 084031 (2009). [DOI], [ADS], [arXiv:0902.1569 [gr-qc]]. |
* | 315 | Paolozzi, A. and Ciufolini, I., “LARES successfully launched in orbit: Satellite and mission description”, Acta Astronaut., 91, 313–321 (2013). [DOI], [ADS], [arXiv:1305.6823 [astro-ph.IM]]. |
* | 316 | Pati, M. E. and Will, C. M., “Post-Newtonian gravitational radiation and equations of motion via direct integration of the relaxed Einstein equations: Foundations”, Phys. Rev. D, 62, 124015 (2000). [DOI], [gr-qc/0007087]. |
* | 317 | Pati, M. E. and Will, C. M., “Post-Newtonian gravitational radiation and equations of motion via direct integration of the relaxed Einstein equations. II. Two-body equations of motion to second post-Newtonian order, and radiation reaction to 3.5 post-Newtonian order”, Phys. Rev. D, 65, 104008 (2002). [DOI], [ADS], [gr-qc/0201001]. |
* | 318 | Peik, E., Lipphardt, B., Schnatz, H., Schneider, T. and Tamm, C., “Limit on the Present Temporal Variation of the Fine Structure Constant”, Phys. Rev. Lett., 93, 170801 (2004). [DOI], [physics/0402132]. |
* | 319 | Peil, S., Crane, S., Hanssen, J. L., Swanson, T. B. and Ekstrom, C. R., “Tests of local position invariance using continuously running atomic clocks”, Phys. Rev. A, 87, 010102 (2013). [DOI], [ADS], [arXiv:1301.6145 [physics.atom-ph]]. |
* | 320 | Petrov, Y. V., Nazarov, A. I., Onegin, M. S., Petrov, V. Y. and Sakhnovsky, E. G., “Natural nuclear reactor at Oklo and variation of fundamental constants: Computation of neutronics of a fresh core”, Phys. Rev. C, 74, 064610 (2006). [DOI], [ADS], [hep-ph/0506186]. |
* | 321 | Pitjeva, E. V., “Relativistic Effects and Solar Oblateness from Radar Observations of Planets and Spacecraft”, Astron. Lett., 31, 340–349 (2005). [DOI], [ADS]. |
* | 322 | Poisson, E., “Measuring black-hole parameters and testing general relativity using gravitational-wave data from space-based interferometers”, Phys. Rev. D, 54, 5939–5953 (1996). [DOI], [gr-qc/9606024]. |
* | 323 | Poisson, E. and Will, C. M., “Gravitational waves from inspiraling compact binaries: Parameter estimation using second-post-Newtonian wave forms”, Phys. Rev. D, 52, 848–855 (1995). [DOI], [arXiv:gr-qc/9502040]. |
* | 324 | Poisson, E. and Will, C. M., Gravity: Newtonian, Post-Newtonian, Relativistic, (Cambridge University Press, Cambridge, 2014). |
* | 325 | Prestage, J. D., Bollinger, J. J., Itano, W. M. and Wineland, D. J., “Limits for Spatial Anisotropy by Use of Nuclear-Spin–Polarized 9Be+ Ions”, Phys. Rev. Lett., 54, 2387–2390 (1985). [DOI]. |
* | 326 | Prestage, J. D., Tjoelker, R. L. and Maleki, L., “Atomic clocks and variation of the fine structure constant”, Phys. Rev. Lett., 74, 3511–3514 (1995). [DOI]. |
* | 327 | Psaltis, D., “Measurements of black hole spins and tests of strong-field general relativity”, in Kaaret, P., Lamb, F. K. and Swank, J. H., eds., X-Ray Timing 2003: Rossi and Beyond, Proceedings of the conference held 3–5 November 2003 in Cambridge, MA, AIP Conference Proceedings, 714, pp. 29–35, (American Institute of Physics, Melville, NY, 2004). [astro-ph/0402213]. |
* | 328 | Psaltis, D., “Probes and Tests of Strong-Field Gravity with Observations in the Electromagnetic
Spectrum”, Living Rev. Relativity, 11, lrr-2008-9 (2008). [DOI], [ADS], [arXiv:0806.1531]. URL
(accessed 28 March 2014): http://www.livingreviews.org/lrr-2008-9. |
* | 329 | Quast, R., Reimers, D. and Levshakov, S. A., “Probing the variability of the fine-structure constant with the VLT/UVES”, Astron. Astrophys., 415, L7–L11 (2004). [DOI], [astro-ph/0311280]. |
* | 330 | Randall, L. and Sundrum, R., “An Alternative to Compactification”, Phys. Rev. Lett., 83, 4690–4693 (1999). [DOI], [ADS], [arXiv:hep-th/9906064]. |
* | 331 | Randall, L. and Sundrum, R., “Large Mass Hierarchy from a Small Extra Dimension”, Phys. Rev. Lett., 83, 3370–3373 (1999). [DOI], [hep-ph/9905221]. |
* | 332 | Ransom, S. M. et al., “A millisecond pulsar in a stellar triple system”, Nature, 505, 520–524 (2014). [DOI], [ADS], [arXiv:1401.0535 [astro-ph.SR]]. |
* | 333 | Reasenberg, R. D. et al., “Viking relativity experiment: Verification of signal retardation by solar gravity”, Astrophys. J. Lett., 234, L219–L221 (1979). [DOI], [ADS]. |
* | 334 | Reeves, H., “On the origin of the light elements (Z < 6)”, Rev. Mod. Phys., 66, 193–216 (1994). [DOI]. |
* | 335 | Reynaud, S., Salomon, C. and Wolf, P., “Testing General Relativity with Atomic Clocks”, Space Sci. Rev., 148, 233–247 (2009). [DOI], [ADS], [arXiv:0903.1166 [quant-ph]]. |
* | 336 | Reynolds, C. S., “Measuring Black Hole Spin Using X-Ray Reflection Spectroscopy”, Space Sci. Rev. (2013). [DOI], [ADS], [arXiv:1302.3260 [astro-ph.HE]]. |
* | 337 | Reynolds, C. S., “The spin of supermassive black holes”, Class. Quantum Grav., 30, 244004 (2013). [DOI], [ADS], [arXiv:1307.3246 [astro-ph.HE]]. |
* | 338 | Ries, J. C., Eanes, R. J., Tapley, B. D. and Peterson, G. E., “Prospects for an Improved
Lense–Thirring Test with SLR and the GRACE Gravity Mission”, in Noomen, R., Klosko, S.,
Noll, C. and Pearlman, M., eds., 13th International Workshop on Laser Ranging, Proceedings
from the Science Session and Full Proceedings CD-ROM, Washington, DC, October 07 – 11,
2002, NASA Conference Proceedings, 2003-212248, pp. 211–248. NASA, (2003). URL (accessed
28 March 2014): http://cddis.gsfc.nasa.gov/lw13/lw_proceedings.html. |
* | 339 | Rievers, B. and Lämmerzahl, C., “High precision thermal modeling of complex systems with application to the flyby and Pioneer anomaly”, Ann. Phys. (Berlin), 523, 439–449 (2011). [DOI], [ADS], [arXiv:1104.3985 [gr-qc]]. |
* | 340 | Riis, E., Anderson, L.-U. A., Bjerre, N., Poulson, O., Lee, S. A. and Hall, J. L., “Test of the Isotropy of the Speed of Light Using Fast-Beam Laser Spectroscopy”, Phys. Rev. Lett., 60, 81–84 (1988). [DOI]. |
* | 341 | Robertson, H. P., “The two-body problem in general relativity.”, Ann. Math., 39, 101–104 (1938). [DOI]. |
* | 342 | Roll, P. G., Krotkov, R. and Dicke, R. H., “The equivalence of inertial and passive gravitational mass”, Ann. Phys. (N.Y.), 26, 442–517 (1964). [DOI]. |
* | 343 | Rossi, B. and Hall, D. B., “Variation of the rate of decay of mesotrons with momentum”, Phys. Rev., 59, 223–228 (1941). [DOI]. |
* | 344 | Rozelot, J.-P. and Damiani, C., “History of solar oblateness measurements and interpretation”, Eur. Phys. J. H, 36, 407–436 (2011). [DOI], [ADS]. |
* | 345 | Ryan, F. D., “Gravitational waves from the inspiral of a compact object into a massive, axisymmetric body with arbitrary multipole moments”, Phys. Rev. D, 52, 5707–5718 (1995). [DOI], [ADS]. |
* | 346 | Sagi, E., “Preferred frame parameters in the tensor-vector-scalar theory of gravity and its generalization”, Phys. Rev. D, 80, 044032 (2009). [DOI], [ADS], [0905.4001 [gr-qc]]. |
* | 347 | Sampson, L., Yunes, N. and Cornish, N., “Rosetta stone for parametrized tests of gravity”, Phys. Rev. D, 88, 064056 (2013). [DOI], [ADS], [arXiv:1307.8144 [gr-qc]]. |
* | 348 | Samuel, S., “On the speed of gravity and the v/c corrections to the Shapiro time delay”, Phys. Rev. Lett., 90, 231101 (2003). [DOI], [astro-ph/0304006]. |
* | 349 | Samuel, S., “On the Speed of Gravity and the Jupiter/quasar Measurement”, Int. J. Mod. Phys. D, 13, 1753–1770 (2004). [DOI], [astro-ph/0412401]. |
* | 350 | Santiago, D. I., Kalligas, D. and Wagoner, R. V., “Nucleosynthesis constraints on scalar-tensor theories of gravity”, Phys. Rev. D, 56, 7627–7637 (1997). [DOI]. |
* | 351 | Sasaki, M. and Tagoshi, H., “Analytic Black Hole Perturbation Approach to Gravitational
Radiation”, Living Rev. Relativity, 6, lrr-2003-6 (2003). [DOI], [ADS], [arXiv:gr-qc/0306120].
URL (accessed 28 March 2014): http://www.livingreviews.org/lrr-2003-6. |
* | 352 | Sathyaprakash, B. S. and Schutz, B. F., “Physics, Astrophysics and Cosmology with
Gravitational Waves”, Living Rev. Relativity, 12, lrr-2009-2 (2009). [DOI], [ADS],
[arXiv:0903.0338 [gr-qc]]. URL (accessed 28 March 2014): http://www.livingreviews.org/lrr-2009-2. |
* | 353 | Scharre, P. D. and Will, C. M., “Testing scalar-tensor gravity using space gravitational-wave interferometers”, Phys. Rev. D, 65, 042002 (2002). [DOI], [ADS], [arXiv:gr-qc/0109044]. |
* | 354 | Schlamminger, S., Choi, K.-Y., Wagner, T. A., Gundlach, J. H. and Adelberger, E. G., “Test of the Equivalence Principle Using a Rotating Torsion Balance”, Phys. Rev. Lett., 100, 041101 (2008). [DOI], [ADS], [arXiv:0712.0607 [gr-qc]]. |
* | 355 | Schutz, B. F., A First Course in General Relativity, (Cambridge University Press, Cambridge; New York, 2009), 2nd edition. [ADS], [Google Books]. |
* | 356 | Shah, A. G, “Gravitational-wave flux for a particle orbiting a Kerr black hole to 20th post-Newtonian order: a numerical approach”, arXiv, e-print, (2014). [ADS], [arXiv:1403.2697]. |
* | 357 | Shankland, R. S., McCuskey, S. W., Leone, F. C. and Kuerti, G., “New analysis of the interferometer observations of Dayton C. Miller”, Rev. Mod. Phys., 27, 167–178 (1955). [DOI]. |
* | 358 | Shao, L., Caballero, R. N., Kramer, M., Wex, N., Champion, D. J. and Jessner, A., “A new limit on local Lorentz invariance violation of gravity from solitary pulsars”, Class. Quantum Grav., 30, 165019 (2013). [DOI], [ADS], [arXiv:1307.2552 [gr-qc]]. |
* | 359 | Shao, L. and Wex, N., “New tests of local Lorentz invariance of gravity with small-eccentricity binary pulsars”, Class. Quantum Grav., 29, 215018 (2012). [DOI], [ADS], [arXiv:1209.4503 [gr-qc]]. |
* | 360 | Shao, L. and Wex, N., “New limits on the violation of local position invariance of gravity”, Class. Quantum Grav., 30, 165020 (2013). [DOI], [ADS], [arXiv:1307.2637 [gr-qc]]. |
* | 361 | Shapiro, I. I., “A century of relativity”, Rev. Mod. Phys., 71, S41–S53 (1999). [DOI]. |
* | 362 | Shapiro, I. I., Bartel, N., Bietenholz, M. F., Lebach, D. E., Lestrade, J.-F., Ransom, R. R. and Ratner, M. I., “VLBI for Gravity Probe B. I. Overview”, Astrophys. J. Suppl. Ser., 201, 1 (2012). [DOI], [ADS], [arXiv:1204.4630 [astro-ph.IM]]. |
* | 363 | Shapiro, S. S., Davis, J. L., Lebach, D. E. and Gregory, J. S., “Measurement of the Solar Gravitational Deflection of Radio Waves using Geodetic Very-Long-Baseline Interferometry Data, 1979–1999”, Phys. Rev. Lett., 92, 121101 (2004). [DOI]. |
* | 364 | Shibata, M., Taniguchi, K., Okawa, H. and Buonanno, A., “Coalescence of binary neutron stars in a scalar-tensor theory of gravity”, Phys. Rev. D, 89, 084005 (2014). [DOI], [ADS], [arXiv:1310.0627 [gr-qc]]. |
* | 365 | Shlyakter, A. I., “Direct test of the constancy of fundamental nuclear constants”, Nature, 264, 340 (1976). [DOI]. |
* | 366 | Skordis, C., “Generalizing tensor-vector-scalar cosmology”, Phys. Rev. D, 77, 123502 (2008). [DOI], [ADS], [arXiv:0801.1985]. |
* | 367 | Skordis, C., “The tensor-vector-scalar theory and its cosmology”, Class. Quantum Grav., 26, 143001 (2009). [DOI], [ADS], [arXiv:0903.3602 [astro-ph.CO]]. |
* | 368 | Smarr, L., Čadež, A., Dewitt, B. and Eppley, K., “Collision of two black holes: Theoretical framework”, Phys. Rev. D, 14, 2443–2452 (1976). [DOI], [ADS]. |
* | 369 | Smiciklas, M., Brown, J. M., Cheuk, L. W., Smullin, S. J. and Romalis, M. V., “New Test of Local Lorentz Invariance Using a 21Ne-Rb-K Comagnetometer”, Phys. Rev. Lett., 107, 171604 (2011). [DOI], [ADS], [arXiv:1106.0738 [physics.atom-ph]]. |
* | 370 | Sotiriou, T. P. and Faraoni, V., “f(R) theories of gravity”, Rev. Mod. Phys., 82, 451–497 (2010). [DOI], [ADS], [arXiv:0805.1726 [gr-qc]]. |
* | 371 | Sotiriou, T. P. and Faraoni, V., “Black Holes in Scalar-Tensor Gravity”, Phys. Rev. Lett., 108, 081103 (2012). [DOI], [ADS], [arXiv:1109.6324 [gr-qc]]. |
* | 372 | Speake, C. C. and Will, C. M., “Tests of the weak equivalence principle”, Class. Quantum Grav., 29, 180301 (2012). [DOI]. |
* | 373 | Srianand, R., Chand, H., Petitjean, P. and Aracil, B., “Limits on the time variation of the electromagnetic fine-structure constant in the low energy limit from absorption lines in the spectra of distant quasars”, Phys. Rev. Lett., 92, 121302 (2004). [DOI], [astro-ph/0402177]. |
* | 374 | Stairs, I. H., “Testing General Relativity with Pulsar Timing”, Living Rev. Relativity, 6,
lrr-2003-5 (2003). [DOI], [ADS], [arXiv:astro-ph/0307536]. URL (accessed 28 March 2014): http://www.livingreviews.org/lrr-2003-5. |
* | 375 | Stairs, I. H. et al., “Discovery of three wide-orbit binary pulsars: Implications for Binary Evolution and Equivalence Principles”, Astrophys. J., 632, 1060–1068 (2005). [DOI], [astro-ph/0506188]. |
* | 376 | Stanwix, P. L., Tobar, M. E., Wolf, P., Susli, M., Locke, C. R., Ivanov, E. N., Winterflood, J. and van Kann, F., “Test of Lorentz Invariance in Electrodynamics Using Rotating Cryogenic Sapphire Microwave Oscillators”, Phys. Rev. Lett., 95, 040404 (2005). [DOI], [hep-ph/0506074]. |
* | 377 | Stavridis, A. and Will, C. M., “Bounding the mass of the graviton with gravitational waves: Effect of spin precessions in massive black hole binaries”, Phys. Rev. D, 80, 044002 (2009). [DOI], [ADS], [arXiv:0906.3602 [gr-qc]]. |
* | 378 | Stecker, F. W. and Scully, S. T., “Searching for new physics with ultrahigh energy cosmic rays”, New J. Phys., 11, 085003 (2009). [DOI], [ADS], [arXiv:0906.1735 [astro-ph.HE]]. |
* | 379 | Su, Y., Heckel, B. R., Adelberger, E. G., Gundlach, J. H., Harris, M., Smith, G. L. and Swanson, H. E., “New tests of the universality of free fall”, Phys. Rev. D, 50, 3614–3636 (1994). [DOI]. |
* | 380 | Sushkov, A. O., Kim, W. J., Dalvit, D. A. R. and Lamoreaux, S. K., “New Experimental Limits on Non-Newtonian Forces in the Micrometer Range”, Phys. Rev. Lett., 107, 171101 (2011). [DOI], [ADS], [arXiv:1108.2547 [quant-ph]]. |
* | 381 | Talmadge, C. L., Berthias, J.-P., Hellings, R. W. and Standish, E. M., “Model-Independent Constraints on Possible Modifications of Newtonian Gravity”, Phys. Rev. Lett., 61, 1159–1162 (1988). [DOI], [ADS]. |
* | 382 | Taveras, V. and Yunes, N., “Barbero-Immirzi parameter as a scalar field: K-inflation from loop quantum gravity?”, Phys. Rev. D, 78, 064070 (2008). [DOI], [ADS], [arXiv:0807.2652 [gr-qc]]. |
* | 383 | Taylor, J. H., “Astronomical and Space Experiments to Test Relativity”, in MacCallum, M. A. H., ed., General Relativity and Gravitation, p. 209, (Cambridge University Press, Cambridge; New York, 1987). [Google Books]. |
* | 384 | Taylor, T. R. and Veneziano, G., “Dilaton Couplings at Large Distances”, Phys. Lett. B, 213, 450–454 (1988). [DOI]. |
* | 385 | Taylor Jr, J. H., “Nobel Lecture: Binary pulsars and relativistic gravity”, Rev. Mod. Phys., 66, 711–719 (1994). [DOI]. |
* | 386 | Thorne, K. S., “Gravitational radiation”, in Hawking, S. W. and Israel, W., eds., Three Hundred Years of Gravitation, pp. 330–458, (Cambridge University Press, Cambridge; New York, 1987). [Google Books]. |
* | 387 | Thorne, K. S. and Dykla, J. J., “Black Holes in the Dicke-Brans Theory of Gravity”, Astrophys. J. Lett., 166, L35–L38 (1971). [DOI], [ADS]. |
* | 388 | Tinto, M. and Alves, M. E. D. S., “LISA sensitivities to gravitational waves from relativistic metric theories of gravity”, Phys. Rev. D, 82, 122003 (2010). [DOI], [ADS], [arXiv:1010.1302 [gr-qc]]. |
* | 389 | Treuhaft, R. N. and Lowe, S. T., “A measurement of planetary relativistic deflection”, Astron. J., 102, 1879–1888 (1991). [DOI]. |
* | 390 | Tu, L.-C., Guan, S.-G., Luo, J., Shao, C.-G. and Liu, L.-X., “Null Test of Newtonian Inverse-Square Law at Submillimeter Range with a Dual-Modulation Torsion Pendulum”, Phys. Rev. Lett., 98, 201101 (2007). [DOI], [ADS]. |
* | 391 | Turneaure, J. P., Will, C. M., Farrell, B. F., Mattison, E. M. and Vessot, R. F. C., “Test of the principle of equivalence by a null gravitational redshift experiment”, Phys. Rev. D, 27, 1705–1714 (1983). [DOI]. |
* | 392 | Turyshev, S. G., “Experimental Tests of General Relativity”, Annu. Rev. Nucl. Part. Sci., 58, 207–248 (2008). [DOI], [ADS], [arXiv:0806.1731 [gr-qc]]. |
* | 393 | Turyshev, S. G., Shao, M. and Nordtvedt Jr, K. L., “Experimental design for the LATOR mission”, Int. J. Mod. Phys. D, 13, 2035–2063 (2004). [DOI], [gr-qc/0410044]. |
* | 394 | Turyshev, S. G., Shao, M. and Nordtvedt Jr, K. L., “The laser astrometric test of relativity mission”, Class. Quantum Grav., 21, 2773–2799 (2004). [DOI], [gr-qc/0311020]. |
* | 395 | Turyshev, S. G. and Toth, V. T., “The Pioneer Anomaly”, Living Rev. Relativity, 13,
lrr-2010-4 (2010). [DOI], [ADS], [arXiv:1001.3686 [gr-qc]]. URL (accessed 28 March 2014): http://www.livingreviews.org/lrr-2010-4. |
* | 396 | Turyshev, S. G., Toth, V. T., Kinsella, G., Lee, S.-C., Lok, S. M. and Ellis, J., “Support for the Thermal Origin of the Pioneer Anomaly”, Phys. Rev. Lett., 108, 241101 (2012). [DOI], [ADS], [arXiv:1204.2507 [gr-qc]]. |
* | 397 | Uzan, J.-P., “Varying Constants, Gravitation and Cosmology”, Living Rev. Relativity, 14,
lrr-2011-2 (2011). [DOI], [ADS], [arXiv:1009.5514 [astro-ph.CO]]. URL (accessed 28 March 2014):
http://www.livingreviews.org/lrr-2011-2. |
* | 398 | van Dam, H. and Veltman, M. J. G., “Massive and mass-less Yang-Mills and gravitational fields”, Nucl. Phys. B, 22, 397–411 (1970). [DOI], [ADS]. |
* | 399 | Verma, A. K., Fienga, A., Laskar, J., Manche, H. and Gastineau, M., “Use of MESSENGER radioscience data to improve planetary ephemeris and to test general relativity”, Astron. Astrophys., 561, A115 (2014). [DOI], [ADS], [arXiv:1306.5569 [astro-ph.EP]]. |
* | 400 | Vessot, R. F. C. et al., “Test of Relativistic Gravitation with a Space-Borne Hydrogen Maser”, Phys. Rev. Lett., 45, 2081–2084 (1980). [DOI], [ADS]. |
* | 401 | Visser, M., “Mass for the graviton”, Gen. Relativ. Gravit., 30, 1717–1728 (1998). [DOI], [arXiv:gr-qc/9705051]. |
* | 402 | Wagner, T. A., Schlamminger, S., Gundlach, J. H. and Adelberger, E. G., “Torsion-balance tests of the weak equivalence principle”, Class. Quantum Grav., 29, 184002 (2012). [DOI], [ADS], [arXiv:1207.2442 [gr-qc]]. |
* | 403 | Wagoner, R. V., “Resonant-mass detection of tensor and scalar waves”, in Marck, J.-A. and Lasota, J.-P., eds., Relativistic Gravitation and Gravitational Radiation, Proceedings of the Les Houches School of Physics, held in Les Houches, Haute Savoie, 26 September – 6 October, 1995, pp. 419–432, (Cambridge University Press, Cambridge, 1997). [ADS]. |
* | 404 | Wagoner, R. V. and Kalligas, D., “Scalar-tensor theories and gravitational radiation”, in Marck, J.-A. and Lasota, J.-P., eds., Relativistic Gravitation and Gravitational Radiation, Proceedings of the Les Houches School of Physics, held in Les Houches, Haute Savoie, 26 September – 6 October, 1995, pp. 433–446, (Cambridge University Press, Cambridge, 1997). |
* | 405 | Wagoner, R. V. and Will, C. M., “Post-Newtonian gravitational radiation from orbiting point masses”, Astrophys. J., 210, 764–775 (1976). [DOI]. |
* | 406 | Webb, J. K., Flambaum, V. V., Churchill, C. W., Drinkwater, M. J. and Barrow, J. D., “Search for time variation of the fine structure constant”, Phys. Rev. Lett., 82, 884–887 (1999). [DOI], [astro-ph/9803165]. |
* | 407 | Weinberg, S., Gravitation and Cosmology: Principles and Applications of the General Theory of Relativity, (Wiley, New York, 1972). |
* | 408 | Weinberg, S., “Effective field theory for inflation”, Phys. Rev. D, 77, 123541 (2008). [DOI], [ADS], [arXiv:0804.4291 [hep-th]]. |
* | 409 | Weisberg, J. M., Nice, D. J. and Taylor, J. H., “Timing Measurements of the Relativistic Binary Pulsar PSR B1913+16”, Astrophys. J., 722, 1030–1034 (2010). [DOI], [ADS], [arXiv:1011.0718 [astro-ph.GA]]. |
* | 410 | Weisberg, J. M. and Taylor, J. H., “General Relativistic Geodetic Spin Precession in Binary Pulsar B1913+16: Mapping the Emission Beam in Two Dimensions”, Astrophys. J., 576, 942–949 (2002). [DOI], [astro-ph/0205280]. |
* | 411 | Wen, L. and Schutz, B. F., “Coherent network detection of gravitational waves: the redundancy veto”, Class. Quantum Grav., 22, S1321–S1336 (2005). [DOI], [gr-qc/0508042]. Proceedings of the 9th Gravitational Wave Data Analysis Workshop, Annecy, France, 15 – 18 December 2004. |
* | 412 | Wex, N., “Testing Relativistic Gravity with Radio Pulsars”, arXiv, e-print, (2014). [ADS], [arXiv:1402.5594 [gr-qc]]. |
* | 413 | Will, C. M., “Theoretical Frameworks for Testing Relativistic Gravity. II. Parametrized Post-Newtonian Hydrodynamics, and the Nordtvedt Effect”, Astrophys. J., 163, 611–628 (1971). [DOI], [ADS]. |
* | 414 | Will, C. M., “Active mass in relativistic gravity: Theoretical interpretation of the Kreuzer experiment”, Astrophys. J., 204, 224–234 (1976). [DOI]. |
* | 415 | Will, C. M., “Gravitational radiation from binary systems in alternative metric theories of gravity: Dipole radiation and the binary pulsar”, Astrophys. J., 214, 826–839 (1977). [DOI], [ADS]. |
* | 416 | Will, C. M., “Henry Cavendish, Johann von Soldner, and the deflection of light”, Am. J. Phys., 56, 413–415 (1988). [DOI]. |
* | 417 | Will, C. M., “Twilight time for the fifth force?”, Sky and Telescope, 80, 472–479 (1990). |
* | 418 | Will, C. M., “Clock synchronization and isotropy of the one-way speed of light”, Phys. Rev. D, 45, 403–411 (1992). [DOI]. |
* | 419 | Will, C. M., “Is momentum conserved? A test in the binary system PSR 1913+16”, Astrophys. J. Lett., 393, L59–L61 (1992). [DOI]. |
* | 420 | Will, C. M., Theory and Experiment in Gravitational Physics, (Cambridge University Press, Cambridge; New York, 1993), 2nd edition. [Google Books]. |
* | 421 | Will, C. M., Was Einstein Right?: Putting General Relativity to the Test, (Basic Books, New York, 1993), 2nd edition. |
* | 422 | Will, C. M., “Testing scalar-tensor gravity with gravitational-wave observations of inspiralling compact binaries”, Phys. Rev. D, 50, 6058–6067 (1994). [DOI], [arXiv:gr-qc/9406022]. |
* | 423 | Will, C. M., “Bounding the mass of the graviton using gravitational-wave observations of inspiralling compact binaries”, Phys. Rev. D, 57, 2061–2068 (1998). [DOI], [ADS], [arXiv:gr-qc/9709011]. |
* | 424 | Will, C. M., “Einstein’s relativity and everyday life”, online resource, American Physical
Society, (2000). URL (accessed 28 March 2014): http://www.physicscentral.com/writers/writers-00-2.html. |
* | 425 | Will, C. M., “Propagation speed of gravity and the relativistic time delay”, Astrophys. J., 590, 683–690 (2003). [DOI], [astro-ph/0301145]. |
* | 426 | Will, C. M., “Special Relativity: A Centenary Perspective”, in Damour, T., Darrigol, O., Duplantier, B. and Rivasseau, V., eds., Einstein, 1905–2005: Poincaré Seminar 2005, Progres in Mathematical Physics, 47, pp. 33–58, (Birkäuser Verlag, Basel; Boston; Berlin, 2006). [DOI], [ADS], [Google Books]. |
* | 427 | Will, C. M., “Testing the General Relativistic ‘No-Hair’ Theorems Using the Galactic Center Black Hole Sagittarius A*”, Astrophys. J. Lett., 674, L25–L28 (2008). [DOI], [ADS], [arXiv:0711.1677]. |
* | 428 | Will, C. M., “Resource Letter PTG-1: Precision Tests of Gravity”, Am. J. Phys., 78, 1240–1247 (2010). [DOI], [ADS], [arXiv:1008.0296 [gr-qc]]. |
* | 429 | Will, C. M., “Finally, results from Gravity Probe B”, Physics, 4, 43 (2011). [DOI], [ADS],
[arXiv:1106.1198 [gr-qc]]. URL (accessed 28 March 2014): http://physics.aps.org/articles/v4/43. |
* | 430 | Will, C. M., “On the unreasonable effectiveness of the post-Newtonian approximation in gravitational physics”, Proc. Natl. Acad. Sci. USA, 108, 5938–5945 (2011). [DOI], [ADS], [arXiv:1102.5192 [gr-qc]]. |
* | 431 | Will, C. M. and Nordtvedt Jr, K. L., “Conservation Laws and Preferred Frames in Relativistic Gravity. I. Preferred-Frame Theories and an Extended PPN Formalism”, Astrophys. J., 177, 757–774 (1972). [DOI], [ADS]. |
* | 432 | Will, C. M. and Wiseman, A. G., “Gravitational radiation from compact binary systems: Gravitational waveforms and energy loss to second post-Newtonian order”, Phys. Rev. D, 54, 4813–4848 (1996). [DOI], [gr-qc/9608012]. |
* | 433 | Will, C. M. and Yunes, N., “Testing alternative theories of gravity using LISA”, Class. Quantum Grav., 21, 4367–4381 (2004). [DOI], [ADS], [arXiv:gr-qc/0403100]. |
* | 434 | Will, C. M. and Zaglauer, H. W., “Gravitational radiation, close binary systems, and the Brans–Dicke theory of gravity”, Astrophys. J., 346, 366–377 (1989). [DOI], [ADS]. |
* | 435 | Williams, J. G., Newhall, X. X. and Dickey, J. O., “Relativity parameters determined from lunar laser ranging”, Phys. Rev. D, 53, 6730–6739 (1996). [DOI]. |
* | 436 | Williams, J. G., Turyshev, S. G. and Boggs, D. H., “Progress in Lunar Laser Ranging Tests of Relativistic Gravity”, Phys. Rev. Lett., 93, 261101 (2004). [DOI], [ADS], [arXiv:gr-qc/0411113]. |
* | 437 | Williams, J. G., Turyshev, S. G. and Murphy Jr, T. W., “Improving LLR Tests of Gravitational Theory”, Int. J. Mod. Phys. D, 13, 567–582 (2004). [DOI], [gr-qc/0311021]. |
* | 438 | Wolf, P., Bize, S., Clairon, A., Luiten, A. N., Santarelli, G. and Tobar, M. E., “Tests of Lorentz invariance using a microwave resonator”, Phys. Rev. Lett., 90, 060402 (2003). [DOI], [gr-qc/0210049]. |
* | 439 | Wolf, P., Blanchet, L., Bordé, C. J., Reynaud, S., Salomon, C. and Cohen-Tannoudji, C., “Does an atom interferometer test the gravitational redshift at the Compton frequency?”, Class. Quantum Grav., 28, 145017 (2011). [DOI], [ADS], [arXiv:1012.1194 [gr-qc]]. |
* | 440 | Wolf, P., Chapelet, F., Bize, S. and Clairon, A., “Cold Atom Clock Test of Lorentz Invariance in the Matter Sector”, Phys. Rev. Lett., 96, 060801 (2006). [DOI], [ADS], [hep-ph/0601024]. |
* | 441 | Wolfe, A. M., Brown, R. L. and Roberts, M. S., “Limits on the Variation of Fundamental Atomic Quantities over Cosmic Time Scales”, Phys. Rev. Lett., 37, 179–181 (1976). [DOI]. |
* | 442 | Yagi, K., Blas, D., Barausse, E. and Yunes, N., “Constraints on Einstein-Æther theory and Hořava gravity from binary pulsar observations”, Phys. Rev. D, 89, 084067 (2014). [DOI], [ADS], [arXiv:1311.7144 [gr-qc]]. |
* | 443 | Yagi, K., Blas, D., Yunes, N. and Barausse, E., “Strong binary pulsar constraints on Lorentz violation in gravity”, Phys. Rev. Lett., 112, 161101 (2014). [DOI], [ADS], [arXiv:1307.6219 [gr-qc]]. |
* | 444 | Yagi, K., Stein, L. C., Yunes, N. and Tanaka, T., “Isolated and binary neutron stars in dynamical Chern-Simons gravity”, Phys. Rev. D, 87, 084058 (2013). [DOI], [ADS], [arXiv:1302.1918 [gr-qc]]. |
* | 445 | Yagi, K. and Tanaka, T., “Constraining alternative theories of gravity by gravitational waves from precessing eccentric compact binaries with LISA”, Phys. Rev. D, 81, 064008 (2010). [DOI], [ADS], [arXiv:0906.4269 [gr-qc]]. |
* | 446 | Yagi, K. and Tanaka, T., “DECIGO/BBO as a probe to constrain alternative theories of gravity”, Prog. Theor. Phys., 123, 1069–1078 (2010). [DOI], [ADS], [arXiv:0908.3283 [gr-qc]]. |
* | 447 | Yagi, K. and Yunes, N., “I-Love-Q relations in neutron stars and their applications to astrophysics, gravitational waves, and fundamental physics”, Phys. Rev. D, 88, 023009 (2013). [DOI], [ADS], [arXiv:1303.1528 [gr-qc]]. |
* | 448 | Yagi, K. and Yunes, N., “I-Love-Q: Unexpected universal relations for neutron stars and quark stars”, Science, 341, 365–368 (2013). [DOI], [ADS], [arXiv:1302.4499 [gr-qc]]. |
* | 449 | Yang, S.-Q., Zhan, B.-F., Wang, Q.-L., Shao, C.-G., Tu, L.-C., Tan, W.-H. and Luo, J., “Test of the Gravitational Inverse Square Law at Millimeter Ranges”, Phys. Rev. Lett., 108, 081101 (2012). [DOI], [ADS]. |
* | 450 | Yunes, N., Pani, P. and Cardoso, V., “Gravitational waves from quasicircular extreme mass-ratio inspirals as probes of scalar-tensor theories”, Phys. Rev. D, 85, 102003 (2012). [DOI], [ADS], [arXiv:1112.3351 [gr-qc]]. |
* | 451 | Yunes, N. and Pretorius, F., “Fundamental theoretical bias in gravitational wave astrophysics and the parametrized post-Einsteinian framework”, Phys. Rev. D, 80, 122003 (2009). [DOI], [ADS], [arXiv:0909.3328 [gr-qc]]. |
* | 452 | Yunes, N. and Siemens, X., “Gravitational-Wave Tests of General Relativity with
Ground-Based Detectors and Pulsar-Timing Arrays”, Living Rev. Relativity, 16, lrr-2013-9
(2013). [DOI], [ADS], [arXiv:1304.3473 [gr-qc]]. URL (accessed 28 March 2014): http://www.livingreviews.org/lrr-2013-9. |
* | 453 | Zakharov, V. I., “Linearized gravitation theory and the graviton mass”, JETP Lett., 12, 312 (1970). [ADS]. |
* | 454 | Zuntz, J., Baker, T., Ferreira, P. G. and Skordis, C., “Ambiguous tests of general relativity on cosmological scales”, J. Cosmol. Astropart. Phys., 6, 032 (2012). [DOI], [ADS], [arXiv:1110.3830 [astro-ph.CO]]. |