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, . . () .. (shulman@dol.ru, www.ti meorigin21.narod.ru) --arXiv:1306.1826v1 [gr-qc] 7 Jun 2013 Time travel, Clock Puzzles and Their Experimental Tests. Ignazio Ciufolini Dip. Ingegneria dell'Innovazione, Universit`a del Salento, Lecce, and Centro Fermi, Rome, Italy ignazio.ciufolini@unisalento.it -- `' , , . . , , . ` ' , . ` ' , , NASA Gravity Probe A 0.02 %. , , , , . .

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? (closed timelike lines ­ ), , , " ", , [1], . " " " ", " " [12]. " ". , , - , .. . , "" . ( ) ( , ) . , , [8,9,10, 11,12] . , , . [13] " (Chronology Protection Conjecture)". " ", -, ­ , " (frame-dragging)" " (dragging of inertial frames)". : [33,41] , " ". , , , ( " "), , [33,41,42,43,44,45,46,47]. . A C, , , B ( " "), T1, T2 T3 ­ , A, , , B, . , C, , , [33,41,42,43,44] ( ­ NASA Google Earth). , , [17,2]


( ). , , ­ , , , , , , . , , , , -, . , [19,20] (, GP-B) [21] ( , . LAGEOS LARES), , , . , () , , , [50,17], . 1959 1960 [19,20]. 20 2004 , 40 , Gravity Probe B 642 . Gravity Probe B [29] (. http://einstein.stanford.edu/), , , IM Pegasi (HR8703), , (frame-dragging and geodetic precession). , Gravity Probe B 39 , 0.000011 , . 14 2007, 18 , Gravity Probe B: Gravity Probe B , , . Gravity Probe B [51] (. [52]) ( ) 100 , 250% , . 2011 Gravity Probe B , 19 % [29]. , , , . , . , , LAGEOS (LAser GEOdynamics Satellite) [53]. .


, [54] [55,56,57]. LAGEOS NASA 1976 , LAGEOS 2 ­ NASA 1992, 5900 5800 . LAGEOS 15- . - . 13 2012 LARES (LAser RElativity Satellite) . LARES LAGEOS LAGEOS 2, GRACE [66,67] 1% [30,28,69]. I/034/12/0. 1. C.W . Misner, K.S. Thorne, and J.A. W heeler, Gravitation (Freeman, San Francisco, 1973) . 2. I. Ciufolini, and J.A. W heeler, Gravitation and Inertia (Princeton University Press, Princeton, New Jersey, 1995). 3. K.S. Thorne, Closed Timelike Curves, in General Relativity and Gravitation, 1992, Proceedings of the 13th International Conference on General Relativity and Gravitation, edited by R.J. Gleiser, C.N. Kozameh, and O.M. Moreschi, (Institute of Physics Publishing, Bristol, England, 1993), pp. 295-315. 4. S. Chandrasekhar and J. P. W right, The Geodesics in G?odel's Universe", Proc. Nat. Acad. Sci. 47, 341-347 (1961). 5. R. P. Kerr, Gravitational field of a spinning mass as an example of algebraically special metrics, Phys. Rev. Lett. 11, 237-238 (1963). 6. M. S. Morris, K. S. Thorne and U. Yurtsever, W ormholes, Time Machines and the W eak Energy Condition, Phys. Rev. Lett., 61, 1446-49 (1988). 7. U. P. Frolov and I. D. Novikov, Physical Effects in W ormholes and Time Machines', Phys. Rev. D 42, 1057-1065 (1990). 8. J. Friedman, M. S. Morris, I. D. Novikov, F. Echeverria, G. Klinkhammer, K. S. Thorne and U. Yurtsever, Cauchy Problem in Spacetimes with Closed Timelike Curves, Phys. Rev. D 42, 1915-1930 (1990); 9. I. D. Novikov, Time Machine and Self-consistent Evolution in Problems with Selfinteraction, Phys. Rev. D, 45, 1989-1994 (1992); 10. F. Echeverria, G. Klinkhammer and K.S. Thorne, Billiard Balls in W ormhole Spacetimes with Closed Timelike Curves: I. Classical Theory, Physical Review D, 44, 1077-1099 (1991). 11. K.S. Thorne, Black Holes and Time Warps: Einstein's Outrageous Legacy (W .W . Norton and Company, New York, 1994). 12. S.W . Hawking, K.S. Thorne, I. Novikov, T. Ferris and A. Lightman, in The Future of Spacetime, R.H. Price, ed. (W .W . Norton, New York, 2002). 13. S.W . Hawking, The Chronology Protection Conjecture, in Proceedings of the VI Marcel Grossmann Meeting on General Relativity, Kyoto, Japan, June 1991 (W orld Scientific, Singapore).


14. S.-W . Kim and K.S. Thorne, Do vacuum fluctuations prevent the creation of closed timelike curves? Physical Review D, 43, 3929-3949 (1991). 15. A. Ori, A Class of Time-Machine Solutions with a Compact Vacuum Core, Phys. Rev. Lett., 95, 021101 (2005). 16. M. Visser, Lorentzian Wormholes: From Einstein to Hawking (AIP Series in Computational and Applied Mathematical Physics, 1996). 17. K.S., Thorne, R.H. Price, and D.A. Macdonald, The Membrane Paradigm (Yale Univ. Press, NewHaven, 1986). 18. I Ciufolini, Gravitomagnetism and status of the LAGEOS III experiment. Class. Quantum Grav. 11, A73-A81 (1994). 19. G.E. Pugh, Proposal for a Satellite Test of the Coriolis Prediction of General Relativity, W eapons Systems Evaluation Group Research Memorandum N. 11 (The Pentagon, W ashington, 1959). 20. L.I. Schiff, Motion of a Gyroscope According to Einstein's Theory of Gravitation. Proc. Nat. Acad. Sci. 46, 871-82 (1960) and Possible New Test of General Relativity Theory. Phys. Rev. Lett. 4, 215-7 (1960). 21. J. Lense and H. Thirring, Uber den Einfluss der Eigenrotation der Zentralkorper auf die Bewegung der Planeten und Monde nach der Einsteinschen. Phys. Z. 19 156-163, 1918. See also English translation by B Mashhoon, F W Hehl, D S Theiss Gen. Relativ. Gravit. 16, 711-750 (1984). 22. B. and I. Friedl?ander Absolute und Relative Bewegung? (Berlin: Simion-Verlag, 1896) 23. A. F?oppl, Uberreinen Kreiselversuch zur messung der Umdrehungsgeschwindigkeit der Erde. Sitzb. Bayer. Akad.W iss. 34, 5­28 (1904), Phys. Z. 5, 416; see also A. F?oppl, Uber Absolute und Relative Bewegung. Sitzb. Bayer. Akad.W iss. 34, 383­95 (1904). 24. I. Ciufolini, and E. C. Pavlis, A confirmation of the general relativistic prediction of the Lense-Thirring effect, Nature 431, 958-960, 2004. 25. I., Ciufolini, Dragging of Inertial Frames, Nature, 449, 41-47 (2007). 26. J.C., Ries, R. J. Eanes, andM. M.W atkins, Confirming the Frame-Dragging Effect with Satellite Laser Ranging, 16th International Workshop on Laser Ranging , 13-17 October 2008, Poznan, Poland. See also J.C. Ries, Relativity in Satellite Laser Ranging, American Astronomical Society, IAU Symposium 261. Relativity in Fundamental Astronomy: Dynamics, Reference Frames, and Data Analysis (Virginia Beach, VA, USA, 27 April - 1 May 2009). 27. I. Ciufolini, E. C. Pavlis, J. Ries, R. Koenig, G. Sindoni, A. Paolozzi and H. Newmayer, Gravitomagnetism and its Measurement with Laser Ranging to the LAGEOS satellites and GRACE Earth Gravity Models, in John Archibald Wheleer and General Relativity I. Ciufolini and R. Matzner eds., 371-434 (Springer Verlag, 2010). 28. I. Ciufolini, A. Paolozzi, E. C. Pavlis, J. Ries, R. Koenig, R. Matzner, G. Sindoni and H. Neumayer, Testing Gravitational Physics with Satellite Laser Ranging, The European Physical Journal Plus, 126, 72 (2011). 29. C.W .F. Everitt, Gravity Probe B: Final Results of a Space Experiment to Test General Relativity, Phys. Rev. Lett. 106, 221101 (2011). 30. I. Ciufolini, A. Paolozzi , E. C. Pavlis, J. Ries, R. Koenig, R. Matzner and G. Sindoni, The LARES Space Experiment: LARES Orbit, Error Analysis and Satellite Structure, in John Archibald Wheleer and General Relativity I. Ciufolini and R. Matzner eds., 371-434 (Springer Verlag, 2010). 31. I. Ciufolini, A. Paolozzi, E. Pavlis, J. Ries, V. Gurzadyan, R. Koenig, R. Matzner, R. Penrose and G. Sindoni, Testing General Relativity and gravitational physics using the LARES satellite, The European Physical Journal Plus, 127, 133 (2012).


32. A. Einstein, The Meaning of Relativity, 3rd Ed., (Princeton Univ. Press, Princeton, 1950) . 33. L. D. Landau, and E. M. Lifshitz, The Classical Theory of Fields 3rd rev., English edn. (Pergamon, London, 1971). 34. C. M. W ill, Theory and Experiment in Gravitational Physics 2nd edn (Cambridge Univ. Press, Cambridge, UK, 1993). 35. J. C. Hafele and R. E. Keating, Around ­the­W orld Atomic Clocks: Predicted Relativistic Time Gains, Science, 177, 166­68 (1972). 36. J. C. Hafele and R. E. Keating, Around ­the­W orld Atomic Clocks: Observed Relativistic Time Gains', Science, 177, 168­70 (1972). 37. R. F. C. Vessot and M.W . Levine, A test of the equivalence principle using a space­ borne clock', Gen. Rel. and Grav., 10, 181-204 (1979). 38. R. F. C. Vessot, L. W . Levine, E. M. Mattison, E. L. Blomberg, T. E. Hoffman, G. U. Nystrom, B. F. Farrel, R.Decher P. B. Eby, C. R. Baugher, J. W . W att, D. L. Teuber, and F. O. W ills, Test of relativistic gravitation with a space­borne hydrogen maser, Phys. Rev. Lett., 45, 2081-4 (1980). 39. L. Cacciapuoti and Ch. Salomon, Space clocks and fundamen tal tests: The ACES experiment, The European Physical Journal Special Topics, 172, 57-68 (2009). 40. N. Ashby, Relativity in the Global Positioning System, Living Rev. Relativity, 6, (2003). 41. Ya. B. Zeldovich, and I. D. Novikov, Relativistic Astrophysics Vol. I Stars and Relativity (Univ. Chicago Press, Chicago, 1971). 42. I. Ciufolini and F. Ricci, Time delay due to spin and gravitational lensing, Class. and Quantum Grav. 19, 3863-3874 (2002). 43. I. Ciufolini and F. Ricci, Time delay due to spin inside a rotating shell, Class. and Quantum Grav. 19, 3875-3881 (2002). 44. I. Ciufolini, F. Ricci, S. Kopekin and B. Mashhoon, On the Gravitomagnetic Time Delay, Physics Letters A 308, 101-109 (2003). 45. A. Tartaglia, Detection of the Gravitomagnetic Clock Effect. Class. Quantum Grav., 17, 783-792 (2000). 46. A. Tartaglia, Geometric Treatment of the Gravitomagnetic Clock Effect. Gen, Rel. Grav., 32, 1745-1756 (2000). 47. A. Tartaglia, Gravitomagnetism, Clocks and Geometry. European Journ. of Physics, 22, 105-111 (2001). 48. S. W einberg, Gravitation and Cosmology: Principles and Applications of the General Theory of Relativity (W iley, New York, 1972). 49. A. Einstein, Letter to Ernst Mach. Zurich, 25 June 1913, in ref. [1] p. 544. 50. J.M. Bardeen and J.A. Petterson, The Lense -Thirring Effect and Accretion Disks around Kerr Black Holes. Astrophysical J., 195, L65-7 (1975). 51. D. K. Gill and S. Buchman, Evidence for Patch Effect Forces On the Gravity Probe B Gyroscopes (Stanford Univ., Stanford, April 2007); poster at: http://einstein.stanford.edu/content/aps_posters/EvidenceForPatchEffectForces.pdf 52. B.M. Barker and R.F. O'Connel, The gyroscope test of General Relativity. Nature 312, 314 (1984). 53. S.C. Cohen and P.J. Dunn, (Eds.), LAGEOS Scientific Results, J. Geophys. Res. 90 (B11), 9215 (1985). 54. R. Noomen, S. Klosko, C. Noll and M. Pearlman, eds., Toward Millimeter Accuracy Proc. 13th Int. Laser Ranging W orkshop (NASA CP 2003-212248, NASA Goddard, Greenbelt, MD, 2003). 55. B. Tapley, J.C. Ries, R.J. Eanes, and M.M. W atkins, NASA-ASI Study on LAGEOS III, CSR-UT publication n. CSR-89-3, Austin, Texas (1989), and I. Ciufolini et al., ASI-


NASA Study on LAGEOS III, CNR, Rome, Italy (1989). See also: I. Ciufolini et al., INFN study on LARES/WEBER-SAT (2004). 56. Ries J.C., Simulation of an experiment to measure the Lense-Thirring precession using a second LAGEOS satellite, Ph. Dissertation, (Univ. of Texas, Austin, 1989). 57. G. E. Peterson, Estimation of the Lense-Thirring Precession Using Laser-Ranged SAtellites, Ph. Dissertation (Univ. of Texas, Austin, 1997). 58. I. Ciufolini, Measurement of the Lense -Thirring drag on high-altitude laser-ranged artificial satellites. Phys. Rev. Lett. 56, 278-281 (1986). 59. I. Ciufolini, A comprehensive introduction to the Lageos gravitomagnetic experiment: from the importance of the gravitomagnetic field in physics to preliminary error analysis and error budget, Int. J. Mod. Phys. A, 4, 3083-3145 (1989). 60. I. Ciufolini, E.C. Pavlis, F. Chieppa, E. Fernandes -Vieira, and J. Perez-Mercader, Test of general relativity and measurement of the Lense-Thirring effect with two Earth satellites. Science, 279, 2100-2103 (1998). 61. Rubincam, D. P. Drag on the LAGEOS satellite. J. Geophys. Res. B, 95, 48814886 (1990). 62. Lucchesi, D. M. Reassessment of the error modelling of non-gravitational perturbations on LAGEOS II and their impact in the Lense-Thirring derivation. Part II, Planet. Space Sci., 50, 10671100 (2002). 63. W .M. Kaula, Theory of Satellite Geodesy (Blaisdell, W altham, 1966). 64. I. Ciufolini, On a new method to measure the gravitomagnetic field using two orbiting satellites. Nuovo Cimento A, 109, 1709-1720 (1996). 65. IERS Conventions 2010, G. Petit and B. Luzum, eds., IERS Technical Note. 66. Ch. Reigber, F. Flechtner, R. Koenig, U. Meyer, K. Neumayer, R. Schmidt, P. Schwintzer and S. Zhu, GRACE Orbit and Gravity Field Recovery at GFZ Potsdam First Experiences and Perspectives, Eos. Trans. AGU, 83(47), Fall Meet. Suppl., Abstract G12B-03 (2002). 67. B. D. Tapley, The GRACE Mission: Status and Performance Assessment, Eos. Trans. AGU, 83(47), Fall Meet. Suppl., Abstract G12B-01 (2002). 68. I. Ciufolini and A. Paolozzi, LARES Succesfully Launched in Orbit: Satellite and Mission Description, to appear in Acta Astronautica (2013). 69. I. Ciufolini, B. Moreno Monge, A. Paolozzi, R. Koenig, G. Sindoni, G. Michalak and E. Pavlis, Monte Carlo Simulations of the LARES space experiment to test General Relativity and fundamental physics, to be published (2013). 70. I. Ciufolini, E. C. Pavlis and R. Peron, Determination of frame-dragging using Earth gravity models from CHAMP and GRACE, New Astronomy 11 527-550 (2006). 71. T. Smith, A. Erickcek, R.R. Caldwell and M. Kamionkowski, The effects of ChernSimons gravity on bodies orbiting the earth, Phys. Rev. D, 77, 024015 (2008).