- Autor(in)
- Referenz
-
[Sov. Phys. Usp. 20 (1977) 319];
[Sov. Phys. Usp. 29 (1986) 780]
[Sov. Phys. Usp. 31 (1988) 940];
[Soviet Physics JETP 34 (1972) 1159];
[Soviet Physics JETP Letters 13 (1971) 417];
[Soviet Physics JETP Letters 26 (1977) 252]
10 M. T. Jaekel, S. Reynaud, Journal de Physiqu. I - 3 (1993) 1
11 J. A. Wheeler, Annals of Physic. 2 (1957) 604;
12 R. P. Feynman, Acta Physica Polonic. 24 (1963) 711;
13 S. Weinberg, Physical Revie. 138 (1965) B988
14 L. P. Grishchuk, Uspekhi Fizika Nau. 121 (1977) 629
15 V. B. Braginskii, M. B. Menskii, Pisma Zh. Eksp. Teor. Fiz. 13 (1971) 585
16 M. T. Jaekel, S. Reynaud, Physics Letter. A 185 (1994) 143
17 A. Einstein, Annalen der Physi. 49 (1916) 769
18 D. I. Blohincev, Nuovo Ciment. XVI (1960) 382
19 L. Rosenfeld, Nuclear Physic. 40 (1963) 353
1 A. Einstein, Annalen der Physi. 17 (1905) 132;
20 B. S. De Witt, Journal of Mathematical Physic. 3 (1962) 619;
21 Ya. B. Zeldovich, L. P. Pitaevskii, Communications in Mathematical Physic. 23 (1971) 185;
22 N. D. Birrell, P. C. W. Davies, Quantum Fields in Curved Space (Cambridge, 1982);
23 C. Itzykson, J. B. Zuber, Quantum Field Theory (McGraw Hill, 1985)
24 L. D. Landau, E. M. Lifshitz, Cours de Physique Theorique: Theorie des Champs (Mir, 1970) 95
25 R. Utiyama, B. De Witt, Journal of Mathematical Physic. 3 (1962) 608;
26 M. R. Brown, A. C. Ottewill, Physical Revie. D 34 (1986) 1776
27 D. M. Capper, M. J. Duff, L. Halpern, Physical Revie. D 10 (1974) 461
28 G. T. Horowitz, Physical Revie. D 21 (1980) 1445
29 G. T. Horowitz, R. M. Wald, Physical Revie. D 17 (1978) 414;
2 A. Einstein, Annalen der Physi. 17 (1905) 549;
30 G. t'Hooft, M. Veltman, Annales de l'Institut Henri Poincare. 20 (1974) 69;
31 S. Weinberg, Gravitation and Cosmology (Wiley, 1972) ch. 7.6
32 C. M. Will, Scienc. 250 (1990) 770;
33 D. M. Capper, G. Leibbrandt, M. Ramon Medrano, Physical Revie. D 8 (1973) 4320
34 B. Mashhoon, L. P. Grishchuk, Astrophysical Journa. 236 (1980) 990;
3 H. B. G. Casimir, Proc. K. Ned. Akad. Wet. 51 (1948) 793;
4 G. Barton, Journal of Physic. A 24 (1991) 991, 5533;
5 H. B. Callen, T. A. Welton, Physical Revie. 83 (1951) 34
6 M. T. Jaekel, S. Reynaud, Quantum Optic. 4 (1992) 39;
7 G. T. Moore, Journal of Mathematical Physic. 11 (1970) 2679;
8 M. T. Jaekel, S. Reynaud, EuroPhysics Letter. 13 (1990) 301;
9 V. B. Braginskii, F. Ya. Khalili, Quantum measurement (Cambridge, 1992)
A. F. Pace, M. J. Collett, D. F. Walls, Physical Revie. A 47 (1993) 3173
B. S. De Witt, in: Gravitation, An Introduction to Current Research, L. Witten (ed) (Wiley, 1962), p. 266;
B. S. De Witt, Physics Report. 19 (1975) 295;
C. W. Misner, K. S. Thorne, J. A. Wheeler, Gravitation (Freeman and Company, 1973)
G. Plunien, B. Müller, W. Greiner, Physics Report. 134 (1986) 87;
H. H. v. Borzeszkowski, H. J. Treder, Annalen der Physi. 40 (1983) 287;
in: Cavity Quantum Electrodynamics (Supplement: Advances in Atomic, Molecular and Optical Physics), P. Berman (ed) ( Academic Press, 1994)
J. B. Hartle, G. T. Horowitz, Physical Revie. D 24 (1981) 257
L. H. Ford, A. Vilenkin, Physical Revie. D 25 (1982) 2569
L. P. Grishchuk, H. A. Haus, K. Bergman, Physical Revie. D 46 (1992) 1440
L. P. Grishchuk, Uspekhi Fizika Nau. 156 (1988) 297
L. P. Grishchuk, Y. V. Sidorov, Physical Revie. D 42 (1990) 3413;
L. S. Brown, G. J. Maclay, Physical Revie. 184 (1969) 1272;
M. J. Duff, in: Quantum Gravity, C. J. Isham, R. Penrose, D. W. Sciama (eds) (Clarendon Press, 1975), p. 78;
M. T. Jaekel, S. Reynaud, Journal de Physiqu. 1 - 1 (1991) 1395 and references therein
M. T. Jaekel, S. Reynaud, Journal de Physiqu. I - 2 (1992) 149
Mitt. Phys. Ger. Zurich 16 (1916) 97
Physikalische Zeitschrift 10 (1909) 185;
Physikalische Zeitschrift 18 (1917) 121
Pisma Zh. Eksp. Teor. Fiz. 26 (1977) 373
R. M. Wald, Physical Revie. D 17 (1978) 1477
R. W. Hellings, in: Detection of Gravitational Waves, D. Blair (ed) (Cambridge University Press, 1992) p. 453
S. A. Fulling, Aspects of Quantum Field Theory in Curved Spacetime (Cambridge, 1989)
S. A. Fulling, P. C. W. Davies, Proceedings Royal Society of Londo. A 348 (1976) 393;
S. Deser Quantum Gravity, p. 136
T. Damour, in: Gravitation and Quantizations, B. Julia, J. Zinn-Justin (eds) (North Holland, in press 1994)
T. Padmanabhan, Classical and Quantum Gravit. 4 (1987) L107
W. G. Unruh, in: Quantum Theory of Gravity, S.M. Christensen (ed) (Bristol, 1984) p. 234
Ya. B. Zeldovich, A. A. Starobinskii, Zh. Eksp. Teor. Fiz. 61 (1971) 216
Ya. B. Zeldovich, L. P. Grishchuk, Uspekhi Fizika Nau. 149 (1986) 695
- Seitenbereich
-
0068 - 0086
- Schlagwort(e)
-
<KWD>Quantum fluctuations
Spacetime curvatures
Ultimate sensitivity limits
Vacuum stress tensors
- Zusammenfsg.
-
We analyze the quantum fluctuations of vacuum stress tensors and spacetime curvatures, using the framework of linear response theory which connects these fluctuations to dissipation mechanisms arising when stress tensors and spacetime metric are coupled. Vacuum fluctuations of spacetime curvatures are shown to be a sum of two contributions at lowest orders; the first one corresponds to vacuum gravitational waves and is restricted to light-like wavevectors and vanishing Einstein curvature, while the second one arises from gravity of vacuum stress tensors. From these fluctuations, we deduce noise spectra for geodesic deviations registered by probe fields which determine ultimate limits in length or time measurements. In particular, a relation between noise spectra characterizing spacetime fluctuations and the number of massless neutrino fields is obtained.
- Artikel-Typen
- Forschungsartikel