Список источников
1 R.A. Mukhamedshin., M. Tamada, J. Kempa / On influence of pt(xLab) dependence in
hadron-air interactions on lateral features of young EAS cores // Proc. 2nd ICWR "ARAGATS
2011", Nor-Amberd (2012) Editors: B.Pattison and R.Martirosov, Yerevan: «Print Market». p. 138.
2 Managadze A. and Mukhamedshin R. / What can we know on hadron superhigh-energy
interaction fragmentation range by XREC data? // (report at ECRS, Moscow, 2-7.07.2012) (to be
published in J. Phys: Conf. Series).
3 A.S. Borisov., Kh.Kh. Muminov, V.I. Galkin, R.A. Mukhamedshin, V.S. Puchkov / The
‘PAMIR XXI’ Project of a Complex Setup for the PCR Study in a Wide Energy Range 10 14 – 1018
eV // (report at ECRS, Moscow, 2-7.07.2012) (to be published in J. Phys: Conf. Series).
4 J. Kempa., R. Mukhamedshin, M. Tamada / On pt(xL) dependence in h-A interactions and
lateral features of most energetic particles in EAS cores // (report at European Cosmic Ray
Symposium, Moscow, 2-7.07.2012) (to be published in J. Phys: Conf. Series).
5 А.К. Манагадзе, Р.А. Мухамедшин / Характеристики фрагментационной области hА взаимодействий при сверхвысоких энергиях по данным РЭК //. (доклад на ECRS 2012,
Москва, 2-7.07.2012) Изв. РАН, сер. физ. (в печати).
6 R.Aloisio, V.Berezinsky, S.Grigorieva. Analytic calculations of the spectra of ultra-high
energy cosmic ray nuclei. I. The case of CMB radiation. Astroparticle Physics 41 (2013) p73–93.
7 R.Aloisio, V.Berezinsky, S.Grigorieva. Analytic calculations of the spectra of ultra high
energy cosmic ray nuclei. II. The general case of background radiation. Astroparticle Physics 41
(2013) p94–107.
8 S. Grigorieva / Ultra High Energy Cosmic Rays: Spectral Signatures and Observations //
Journal of Physics: Conference Series (JPCS) (2013), принято в печать.
9 E.Babichev, V. Dokuchaev, Yu.Eroshenko. Backreaction of accreting matter onto a black
hole in the Eddington–Finkelstein coordinates. Classical and Quantum Gravity 29 (2012) 115002.
10 V.I.Dokuchaev, Yu.N.Eroshenko. Swift J164449.3+ 573451 event: Generation in
collapsing star cluster? // Gravitation and Cosmology 18 (2012) p232-238.
11 В.С. Березинский, В.И. Докучаев, Ю.Н. Ерошенко, М. Кахелрис, М.О. Сольберг /
Сверхплотные сгустки темной материи из сверхтяжелых частиц // Теоретическая и
математическая физика 170 (2012) с102-109.
12 V.S. Berezinsky, V.I. Dokuchaev, Yu.N. Eroshenko / Formation of Superdense Dark
Matter Lumps at the Radiation-Dominated Cosmological Stage // Gravitation and Cosmology 18
(2012) p57-60.
13 V.I. Dokuchaev / Life Inside Black Holes // Gravitation and Cosmology 18 (2012) p65–
69.
70
14 V.I. Dokuchaev and Yu.N. Eroshenko / A Search for Supernovae Preceding Short
Gamma-Ray Bursts // Gravitation and Cosmology 18 (2012) p97-99.
15 A.V. Butkevich/ Quasi-elastic neutrino charget current scattering jff medium-heavy
nuclei:40Ca and 40Ar // Phys.Rev. C85 065501 (2012)
16 D.D. Stancil et al (MINERvA). Demonstration of communication using neutrino/
Mod.Rev.Lett. A27,1250077 (2012)
17 M.Galeazzi, A.V.Kopylov, V.V.Petukhov, E.A.Yanovich, G.T.Zatsepin // Phys.Lett. B,
1998, 398, p.187
18 Тезисы докладов напечатаны в сборнике докладов конференции
МАЯТ-2012,
стр.132,120.
19 Подготовлены публикации в журнал ВАНТ (Серия «Материаловедение и новые
материалы»).
20 V.A.Kuzmin and G.Zatsepin. On the neutrino spectroscopy of the Sun // Proceedings of
9th International Cosmic Ray Conference, London, 1965, p.1024.
21 J.N.Bahcall Neutrino-Spectroscopy of the Solar Interior // Phys.Lett. 13 (1964) 332
22 Homestake collaboration, B.T. Cleveland et al., Astrophys. J. 496 (1998) 505
23 V.N. Gavrin, Phys. Usp. 54 (2011) 941
24 GALLEX collaboration, W. Hampel et al Phys. Lett. B 447 (1999) 12
25 GNO collaboration, M. Altmann et al., // Phys. Lett. B 616 (2005) 174 [hep-ex/0504037]
26 Kamiokande Collaboration, Y.Fukuda et al. Phys. Rev. Lett. 77, 168, 3 (1996).
27 Super-Kamiokande collaboration, K. Abe et al.
Phys. Rev. D 83 (2011) 052010
[arXiv:1010.0118]
28 Q.R. Ahmad et al. (SNO Collaboration), Phys. Rev. Lett. 87, 071301 (2001);
29 B. Aharmim et al. (SNO Collaboration), Phys. Rev. C 75, 045502 (2007);
30 B. Aharmim et al. (SNO Collaboration), Phys. Rev. Lett. 101, 111301 (2008);
31 B. Aharmim et al. (SNO Collaboration) Phys.Rev. C 81, 055504 (2010).
32 B. Aharmim et al. (SNO Collaboration), arXiv:1109.0763
33 KamLAND Collaboration, K.Eguchi et al. Phys. Rev. Lett. 94, 081801 (2005)
34 S. Abe et al. (KamLAND Collaboration) Phys. Rev. C 84, 035804 (2011).
35 G. Bellini et al. (Borexino Collaboration) Phys. Rev. Lett. 108, 051302 (2012)
36 A.V.Kopylov Correlation of neutrino fluxes in the standard Bahcall-Ulrich solar model in
connection with the solar-neutrino problem. Pis’ma Zh.Eksp.Teor.Fiz 57, No.1, 12-16 (1993).
37 W.C.Haxton, A.M. Serenelli CN-Cycle Solar Neutrinos and Sun's Primordial Core
Metalicity arXiv:0805.2013v1 [astro-ph] (2008)
38 Anatoly Kopylov, Valery Petukhov, The mixing in the solar core and the neutrino fluxes
71
arXiv:1209.3719v2
39 B.T. Cleveland, H. Ejiri, S.R. Elliott, V.N. Gavrin, V.V. Gorbachev, D.S. Gorbunov,
T.V. Ibragimova, V.A. Matveev, J.S. Nico, R.G.H. Robertson, E.P. Veretenkin, J.F. Wilkerson,
Very Short Baseline nu_e -> nu_x Oscillation Search with a Dual Metallic Ga Target at Baksan
and 51Cr neutrino Source, Light Sterile Neutrinos: A White Paper, arXiv:1204.5379v1[hep-ph]
(2012), 170-175.
72
73
Download

Список источников