Research of Global Anisotropy of Physical Space on Investigation Base of Changes in and α-decay Rate of Radioactive Elements. Motion of Pulsars and Anisotropy of Cosmic Rays
Results from experimental studies of a global anisotropy of physical space and new interaction in nature based on analyzing fluctuations in the intensity of the β and α-decay of radioactive elements, motion of pulsars and anisotropy of cosmic rays, are presented. The explanation of the results, based on a hypothesis as to the global anisotropy of physical space caused by the existence of cosmological vector potential AG in limits of theory of byuon, is given. It is shown that vector AG has the following coordinates in the second equatorial coordinate system: right ascension α = 300° ± 10°; declination δ = 36° ± 10°.
Yuriy Alexeevich Baurov,
Research of Global Anisotropy of Physical Space on Investigation Base of Changes in and α-decay Rate of Radioactive Elements. Motion of Pulsars and Anisotropy of Cosmic Rays, American Journal of Modern Physics.
Vol. 2, No. 3,
2013, pp. 177-184.
doi: 10.11648/j.ajmp.20130203.22
[1]
Yu.A. Baurov, Yu.N. Babaev and V.K. Ablekov, Dokl. Akad. Nauk SSSR, 1981, vol. 259, no. 5, p. 1080.
[2]
Yu.A. Baurov, Yu.N. Babaev and V.K. Ablekov, Dokl. Akad. Nauk SSSR, 1982, vol. 262, no. 1, p. 68.
[3]
Yu.A. Baurov, Yu.N. Babaev and V.K. Ablekov, Dokl. Akad. Nauk SSSR, 1982, vol. 265, no. 5, p. 1108.
[4]
Yu.N. Babaev, and Yu.A. Baurov, On the Origin of Fundamental Constants and Some Quantum Numbers, Preprint of Institute for Nuclear Research of the USSR Academy of Sciences, 1984, no. P–0362.
[5]
Yu. A. Baurov "On the Structure of Physical Vacuum and a New Interaction in Nature (Theory, Experiment and Applications)", Nova Science, NewYork, 2000.
[6]
Yu.A. Baurov, E.Yu. Klimenko and S.I. Novikov, Dokl. Akad. Nauk SSSR, 1990, vol. 315, no. 5, p. 1116.
[7]
Yu.A. Baurov and P.M. Ryabov, Dokl. Akad. Nauk SSSR, 1992, vol. 326, no. 1, p. 73.
[8]
Yu.A. Baurov, Phys. Lett. A, 1993, vol. 181, p. 283.
[9]
Yu.A. Baurov, Global Anisotropy of Physical Space.Experimental and Theoretical Basis, New York: Nova Science., 2004.
[10]
Yu. A. Baurov and A. V. Kopaev, Hadronic Journal, Vol. 25, 2002, pp 697-711.
[11]
Yu.A. Baurov, et al., Phys. Lett. A311, 2003, p. 512.
[12]
Yu. A. Baurov and V. L. Shutov, PrikladnayaFizika, No. 1, 40 (1995), (in Russian)
[13]
Yu. A. Baurov, A. A. Konradov, V. F. Kushniruk and Yu. G. Sobolev, Scientific Report № E7-97-206, (Dubna, 1997), p.354.
[14]
Yu. A. Baurov A. A. Konradov, E. A. Kuznetsov et al., Mod. Phys. Lett. A16, 2089 (2001).
[15]
Yu. A. Baurov, Yu. G. Sobolev, Yu. V. Ryabov, V. F. Kushniruk., Phys. Atom. Nucl. 70, 1825 (2007).
[16]
Yu. A. Baurov, N. A. Demchuk, A. Yu. Baurov, A. Yu. Baurov (Jr.), V. B. Dunin, V. V. Tihomirov, S. V. Sergeev, Prikladnaya fizika5, 12 (2011). (in Russian).
[17]
Yu. A. Baurov, V.A. Nikitin, V. B. Dunin, N. A. Demchuk, A. Yu. Baurov, A. Yu. Baurov (Jr.), V. V. Tihomirov, S. V. Sergeev, arXiv:1304.6885 [nucl-ex].
[18]
D. N. Trifonov, Radioactivity Yesterday, Today, Tomorrow, Atomizdat, Moscow, 1966, p. 91, (in Russian).
[19]
T. Ohtsuki et al., Phys. Rev. Lett. 93, 112501 (2004).
[20]
S. K. Godovikov, Pis’maZh. Eґksp. Teor. Fiz. 79, 249; (2004) [JETP Lett. 79, 196 (2004)].
[21]
D. E. Alburder, G. Harbottle, and E. F. Norton, Earth and Planet. Sci. Lett. 78, 169 (1986).
[22]
H. Siegert, H. Schrader, and U. Schotzig, Appl. Radiat. Isot. 49, 1397 (1998).
[23]
S. E. Shnol et al. Uspehi phys. Nauk, 168, 1129 (1998), (in Russian).
[24]
J. H. Jenkins et. al. Astro-ph/0808.3283, 25 Aug. (2008).
[25]
E. Fischbach et. al. Space Sci. Rev. 145, 285 (2009).
[26]
E. Bellotti et.al. Phys. Lett. B710, 114 (2012).
[27]
J. H. Jenkins, E. Fischbach, D. JavorsekII, Robert H. Lee, P. A. Sturrock, Appl. Radiat. Isot.74, 50 (2013).
[28]
Yu. A. Baurov, A. A. Shpitalnaya, I. F. Malov, International Journal of Pure & Applied Physics, 1, 71, 2005.
[29]
Yu. A. Baurov, I. F. Malov, Int. J. Pure & Appl. Phys. 6, 469 (2010).
[30]
I. F. Malov, Yu. A. Baurov, Astronomy Reports, 51, 830, 2007.
[31]
Yu. A. Baurov, Bull. Russ. Acad. Sci. Phys. 76, 1076 (2012).
[32]
Yu. A. Baurov, Journal of Modern Physics, 2012, 3, 1744
[33]
R. A. Alpher, M. Bethe, G. Gamov, Phys. Rev., 1946, v.70, p.572; i bid: 1948, v.73, p.803.
[34]
A. D. Linde, Uspekhi Fizicheskikh Nauk, 1984, v.144, p.177.
[35]
G. Yu. Bogoslovsky, Theory of locally anisotropic space-time. Ed. by Moscow State University, 1992 (in Russian).
[36]
Kh. Rund, Differential geometry of Finsler’s spaces. Moscow, "Nauka", 1981.
[37]
The mathematical encyclopaedia, Moscow, " Big Russian encyclopaedia, 1995.
[38]
I. S. Veselovsky et al., Rom. Astron. J., 9, 29, Supplement, 1999.
[39]
"Astronomy: Century XXI". Ed. V. G. Surdin. "Fryazino: century XX" (2007) (in Russian).
[40]
P. Birch, Nature, 1982, v.298, p.451.
[41]
P. Birch, Nature, 1983, v.301, p.736.
[42]
V.I.Panov, Yu.G.Sbytov, ZhETF, 1992, v.101, N3.
[43]
Aristoteles, v.3, Moscow, "Mysl", 1981 (in Russian).
[44]
B.Nodland, J.P.Ralston, Phys. Rev. Lett., 1997, v.78, p.3043.