Gravitation astrometric measurement experiment
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- 作者:Mario Gai (1) gai@oato.inaf.it
Alberto Vecchiato (1)
Sebastiano Ligori (1)
Alessandro Sozzetti (1)
Mario G. Lattanzi (1) - 关键词:Experimental test of gravitational theories – ; Astrometry
- 刊名:Experimental Astronomy
- 出版年:2012
- 出版时间:October 2012
- 年:2012
- 卷:34
- 期:2
- 页码:165-180
- 全文大小:518.5 KB
- 参考文献:1. Bertolami, O., Francisco, F., Gil, P.J.S., P谩ramos, J.: Thermal analysis of the pioneer anomaly: a method to estimate radiative momentum transfer. Phys. Rev. D 78(10), 103001 (2008). doi:10.1103/PhysRevD.78.103001
2. Bertotti, B., Iess, L., Tortora, P.: A test of general relativity using radio links with the Cassini spacecraft. Nature (London) 425, 374–376 (2003)
3. B枚hmer, C.G., Harko, T., Lobo, F.S.N.: The generalized virial theorem in f(R) gravity. J. Cosmol. Astropart. Phys. 2008(3), 24 (2008). doi:10.1088/1475-7516/2008/03/024
4. Capozziello, S., de Filippis, E., Salzano, V.: Modelling clusters of galaxies by f(R) gravity. Mon. Not. R. Astron. Soc. 394, 947–959 (2009). doi:
5. Capozziello, S., Stabile, A., Troisi, A.: Comparing scalar-tensor gravity and f(R)-gravity in the Newtonian limit. Phys. Lett. B 686, 79–83 (2010). doi:
6. Capozziello, S., Troisi, A.: Parametrized post-Newtonian limit of fourth order gravity inspired by scalar-tensor gravity. Phys. Rev. D 72(4), 044022 (2005). doi:10.1103/PhysRevD.72.044022
7. Capozziello, S., Tsujikawa, S.: Solar system and equivalence principle constraints on f(R) gravity by the chameleon approach. Phys. Rev. D 77(10), 107501 (2008). doi:10.1103/PhysRevD.77.107501
8. Crosta, M.T., Mignard, F.: Microarcsecond light bending by Jupiter. Class. Quantum Gravity 23, 4853–4871 (2006). doi:
9. Damour, T., Nordtvedt, K.: General relativity as a cosmological attractor of tensor-scalar theories. Phys. Rev. Lett. 70, 2217–2219 (1993)
10. Fienga, A., Laskar, J., Morley, T., Manche, H., Kuchynka, P., Le Poncin-Lafitte, C., Budnik, F., Gastineau, M., Somenzi, L.: INPOP08, a 4-D planetary ephemeris: from asteroid and time-scale computations to ESA Mars Express and Venus Express contributions. Astron. Astrophys. 507, 1675–1686 (2009). doi:
11. Gai, M., Carollo, D., Delb貌, M., Lattanzi, M.G., Massone, G., Bertinetto, F., Mana, G., Cesare, S.: Location accuracy limitations for CCD cameras. Astron. Astrophys. 367, 362–370 (2001). doi:
12. Gai, M., Casertano, S., Carollo, D., Lattanzi, M.G.: Location estimators for interferometric fringes. Publ. Astron. Soc. Pac. 110, 848–862 (1998). doi:
13. Leibovitz, J.: Pioneer anomaly: artifact or real astrophysical phenomenon of the Solar System. In: APS April Meeting Abstracts, pp. 1010 (2008)
14. Pitjeva, E.V.: Relativistic effects and solar oblateness from radar observations of planets and spacecraft. Astron. Lett. 31, 340–349 (2005). doi:
15. Pitjeva, E.V.: EPM ephemerides and relativity. In: Proceedings of the International Astronomical Union, vol. 5, pp. 170–178 (2010). doi:10.1017/S1743921309990342
16. Shapiro, I.I.: Solar system tests of general relativity: recent results and present plans. In: Ashby, N., Bartlett, D.F., Wyss, W. (eds.) General Relativity and Gravitation, 1989, pp. 313 (1990)
17. Shapiro, S.S., Davis, J.L., Lebach, D.E., 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)
18. Turyshev, S.G., Toth, V.T.: The puzzle of the flyby anomaly. Space Sci. Rev. 148, 169–174 (2009). doi:
19. Vecchiato, A., Gai, M., Lattanzi, M.G., Crosta, M., Sozzetti, A.: Gamma astrometric measurement experiment (GAME)—science case. Adv. Space Res. 44, 579–587 (2009). doi:
20. Will, C.M.: The confrontation between general relativity and experiment. Living Rev. Relat. 9(3), 1–100 (2006). http://www.livingreviews.org/lrr-2006-3
21. Williams, J.G., Turyshev, S.G., Boggs, D.H.: Progress in lunar laser ranging tests of relativistic gravity. Phys. Rev. Lett. 93(26), 261,101–+ (2004). doi:10.1103/PhysRevLett.93.261101 - 作者单位:1. Istituto Nazionale di Astrofisica - Astronomical Observatory of Torino, Pino Torinese, Italy
- ISSN:1572-9508
文摘
The Gravitation Astrometric Measurement Experiment (GAME) is a mission concept based on astronomical techniques (astrometry and coronagraphy) for Fundamental Physics measurements, namely the γ and β parameters of the Parametrized Post-Newtonian formulation of gravitation theories extending the General Relativity. The science case also addresses cosmology, extra-solar planets, Solar System objects and fundamental stellar parameters. The mission concept is described, including the measurement approach and the instrument design.