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Publications

  1. Winternitz P., Zubarev A.L., Makarov A.A. Electromagnetic current and form-factors for meson 35-plet in broken SL(6,C). Sov. J. Nucl. Phys. 4 (1967) 879.

  2. Winternitz P., Zubarev A.L. Vector meson production and [SU(3) X SU(3)]_coll. symmetry. Czechoslovak J. of Phys. B18 (1968) 1.

  3. Belyaev V.B., Wrzecionko E., Zubarev A.L. Calculation of nd-scattering lengths with realistic potentials. Sov.J. Nucl. Phys. 12 (1971) 503.

  4. Belyaev V.B., Zubarev A.L. Some possibilities of solving of the Faddeev equations with of arbitrary form potentials. Sov. J. Nucl. Phys. 14 (1972) 305.

  5. Belyaev V.B., Zubarev A.L. Potentials containing infinite repulsion and the nuclear 3-body problem. Fizika 3 (1971) 77.

  6. Zubarev A.L., Firsov V.I. Factorization of two-body t-matrix in three-body problem. Sov. Phys. J. 6 (1974) 37.

  7. Akhmadkhodzaev B., Zubarev A.L. NN-interaction and the nuclear three-body problem. I. Izv. Akad. Uz. SSR, Ser. Fiz. - Mat. 1 (1974) 70.

  8. Akhmadkhodzaev B., Zubarev A.L. NN-interaction and the nuclear three-body problem. II. Izv. Akad. Uz. SSR, Ser. Fiz.-Mat. 2 (1974) 134.

  9. Zubarev A.L., Podkopaev A.P. The method of separabilization in high energy and middle energy scattering. Izv. Akad. Uz SSR, Ser. Fiz.-Mat. 3 (1975) 88.

  10. Zubarev A.L., Musakhanov M.M. Investigation of the Fresnel corrections to the eikonal approximation by the separable method. Sov. J. Nucl. Phys. 23 (1976) 42.

  11. Zubarev A.L. Concerning one sequence of variational principles in multichannel nuclear reaction theory. Sov. J. Nucl. Phys. 23 (1976) 40.

  12. Zubarev A.L. Separable representation method in problems of nuclear physics. Sov. J. Part. Nucl. 7 (1976) 215.

  13. Zubarev A.L. A study of corrections to the leading approximation in the method of multidimensional harmonics based on the separabilization of the potential. Sov. J. Nucl. Phys. 23 (1976) 374.

  14. Zubarev A.L., Podkopaev A.P. The construction of dual amplitudes in the potential theory. Sov. J. Nucl. Phys. 24 (1976) 374.

  15. Zubarev A.L. Resonances in the reflection of ultra cold neutrons. Sov. J. Nucl. Phys. 26 (1977) 232.

  16. Zubarev A.L. The Schwinger variational principle for bound state and scattering problems. Theor. and Math. Phys. 30 (1977) 45.

  17. Zubarev A.L., Musakhanov M.M., Pazdzerski V.A. Problems in quantum mechanics. Publication of the Tashkent University, Tashkent (1978).

  18. Zubarev A.L., Podkopaev A.P. Schwinger's variational principle in nuclear two-body problem and in multichannel problem. Bull. Acad. Sci. USSR, Phys. Ser. {\bf 42} (1978) 143.

  19. Galimzyanov R.M., Zubarev A.L., Mezrin O.U. The Schwinger variational principle in the microwave breakdown problem. Sov. Journal of Technical Phys. 48 (1978) 1142.

  20. Zubarev A.L. Schwinger variational principle. Sov. J. Part. Nucl. 9 (1978) 188.

  21. Zubarev A.L. Reformulation of strong-coupling channel method on the basis of the Schwinger variational principle. Sov. J. Nucl. Phys. 28 (1978) 287.

  22. Zubarev A.L. On the theory of optical potential. Sov. J. Nucl. Phys. 28 (1978) 565.

  23. Belyaev V.B., Zubarev A.L., Rachimov A. Evaluation of $\pi$ -He scattering length. Int. Symp. on Few Body Problem in Nuclear Phys., Dubna (1979) 33.

  24. Zubarev A.L., Irgaziev B., Podkopaev A.P., Fridman A.A. The Schwinger variational principle in quantum-mechanical three-body problem. Int. Symp. on Few Body Problem in Nuclear Phys., Dubna, (1979) 53.

  25. Zubarev A.L. Reformulation of the strong coupling channel method in terms of the Schwinger variational principle. Int. Symp. on Few Body Problem in Nuclear Phys., Dubna (1979) 89.

  26. Galimzyanov R.M., Zubarev A.L., Musakhanov M.M. The account of the Coulomb interaction in the processes of low energy scattering. Int. Symp. on Few Body Problem in Nuclear Phys., Dubna, (1979) 7.

  27. Zubarev A.L., Irgaziev B. Podkopaev A.P., Fridman A.A. On the theory of the low energy scattering of mesons by deuterons. Sov. J. Nucl. Phys. 29 (1979) 469.

  28. Zubarev A.L. The Schwinger variational principle in nonstationary theory. Sov. J. Nucl. Phys. 29 (1979) 281.

  29. Belyaev V.B., Wrzecionko E., Zubarev A.L., Podkopaev A.P. The Schwinger variational principle for charged particle scattering on atomic systems. J. Phys. B12 (1979) 1225.

  30. Belyaev V.B., Zubarev A.L., Rachimov A. Calculation of low energy characteristics of pion scattering on $He^{3}$ and $He^{4}$ nuclei. J. Phys. G6 (1980) 244.

  31. Zubarev A.L., Podkopaev A.P. The Schwinger variational principle (SVP) in the quantum mechanical 3-body problem. Proc. of the 9th Int. Conf. on the few body problems, Eugene, Oregon 1 (1980) VII-21.

  32. Galimzyanov R.M., Zubarev A.L., Musakhanov M.M. Energy shift in mesoatom. Proc. of the 9th Int. Conf. on the few body problems, Eugene, Oregon 1 (1980) VI-12.

  33. Zubarev A.L. The method of strong coupling channels modified on the basis of the Schwinger variational principle. Proc. of the 9th Int. Conf. on the few body problems, Eugene, Oregon 1 (1980) VII-25.

  34. Zubarev A.L., Irgaziev B., Musakhanov M.M., Fridman A.A. Influence of continuous spectrum of NN-subsystem on low energy pion-d scattering. Proc. of the 9th Int. Conf. on the few body problems, Eugene, Oregon 1 (1980)V-26.

  35. Galimzyanov R.M., Zubarev A.L., Musakhanov M.M. Contribution of polarization potential to pion-deuteron scattering length. Sov. J. Nucl. Phys. 32 (1980) 793.

  36. Zubarev A.L. Upper and lower constraints on the bound state energy in the quantum mechanical few-body problem. Sov. J. Nucl. Phys. 33 (1981) 472.

  37. Zubarev A.L. The Schwinger variational principle in quantum mechanics. Moscow, Energoizdat (1981).

  38. Galimzyanov R.M., Zubarev A.L. Musakhanov M.M. Calculation of the level shift for the pionic atom of deuterium. Sov. J. Nucl. Phys. 33 (1981) 683.

  39. Galimzyanov R.M., Brener S.E., Zubarev A.L. The Schwinger variational principle in rearrangement collisions. Czechoslovak J. Phys. B32 (1982) 243.

  40. Belyaev V.B., Brener S.E., Gandyl E.M., Zubarev A.L., Irgaziev B. On the possible influence of the strong interaction on the properties of meso molecular systems. J. Phys. G8 (1982) 903.

  41. Belyaev V.B., Gandyl E.M., Zubarev A.L. On mu-mesic molecular ion(dt) spectrum. Z. Phys. A314 (1983) 107.

  42. Irgaziev B., Marich Z., Musakhanov M.M., Zubarev A.L. Influence of the energy continuum in the NN subsystem on the pion-d scattering length. Fizika, 15 (1983) 147.

  43. Abdurakhmanov A., Akhmadkhodzaev B., Gandyl E.M., Zubarev A.L. Dependence of three-body observables on the way of ``confinement" introduction into the quark compound bag model. 10th Int. Conf. on Few Body problems in Physics, Karlsruhe, Germany, (1983) 297.

  44. Brener S.E., Gandyl E.M., Zubarev A.L., Sultanov R.A. Faddeev - Hahn equation in some problems of atomic and meso atomic physics. 10th Int. Conf. on Few Body problems in Physics, Karlsruhe, Germany, (1983) 343.

  45. Abdurakhmanov A., Akhmadkhodzaev B., Gandyl E.M., Zubarev A.L. Dependence of three-body observables on the way of ``confinement" introduction into the quark compound bag model. In Few Body Problems in Physics, B. Zeitnitz Ed., Amsterdam 2 (1984) 617.

  46. Brener S.E., Gandyl E.M., Zubarev A.L., Sultanov R.A. Faddeev - Hahn equation in some problems of atomic and meso atomic physics. In Few Body Problems in Physics, B. Zeitnitz Editor, Amsterdam, 2 (1984) 701.

  47. Gandyl E.M., Sultanov R.A., Zubarev A.L. Application of the Faddeev-Hahn equations to the meso molecular system calculation. In Particle and Nuclei, F. Guttner, B. Povh, G. Zu. Putlitz Editors, Heidelberg 2 (1984) L35.

  48. Abdurakhmanov A., Sokolovskaya S.B., Zubarev A.L. The P-matrix description of the NN-interaction and the nuclear three body problem. The Particle and Nuclei, F. Guttner, B. Povh, G. Zu. Putlitz Editors, Heidelberg 1 (1984) C25.

  49. Belyaev V.B., Brener S.E., Galimzyanov R.M., Zubarev A.L. Solution of Faddeev-type equation in the problem of two Coulomb centers. Z. Phys. {\bf A317} (1984) 15.

  50. Abdurakhmanov A., Zubarev A.L. Energy-dependent potentials in the nuclear three-body problem. Z. Phys. {\bf A322} (1985) 523.

  51. Zubarev A.L. Mu-molecules and mu-atoms. In Few Body problems in physics (Proceedings of the Ninth European Conference on Few Body problems in physics, Tbilisi 1984) Ed. L.D. Faddeev, T. I. Kopaleishvili, World Scientific, Singapore (1985) 514.

  52. Gandyl E.M., Zubarev A.L. A calculation of a spectrum of levels in the Coulomb three body problem. Proc. of the 10th Int. Conf. on atomic physics, Tokyo (1986) 94.

  53. Brener S.E., Zubarev A.L. Slow energy collisions in mu-molecular systems. Proc. of the 10th Int. Conf. on atomic physics (ICAP-X), Tokyo (1986) 104.

  54. Bratanov R.L., Zubarev A.L. Low energy electron scattering on hydrogen atoms. Proc. of the 10th Int. Conf. on atomic physics (ICAP-X),Tokyo (1986) 35.

  55. Zubarev A.L., Sultanov R.A. The Faddeev-Hahn equations in a semi-classical model of three Coulomb particles. Int. Conf on the theory of few body and quark-hadronic systems, Dubna (1987) 15.

  56. Abdurakhmanov A., Zubarev A.L., Latipov A. Sh., Nosirov M. Tritium binding energy and vertex constants in the energy dependent potential model. Int. Conf. on the theory of few body and quark-hadronic systems, Dubna (1987) 29.

  57. Abdurakhmanov A., Zubarev A.L., Irgaziev B. On the dependence of three body observables on the shape of two body energy dependent potentials. Int. Conf. on the theory of few body and quark-hadronic systems, Dubna (1987) 35.

  58. Zubarev A.L., Mirtadzieva K. T. On separable approximation of polarization potentials. Int. Conf. on the theory of few body and quark-hadronic systems, Dubna (1987) 117.

  59. Bratanov R.L., Zubarev A.L. On the influence of polarization potential on low energy observables of electron scattering on hydrogen atoms within Faddeev-Hahn formalism. Int. Conf. on the theory of few body and quark-hadronic systems, Dubna (1987) 118.

  60. Brener S.E., Zubarev A.L. Low-energy p$\mu$ + t collisions in the H isotope mixture. Int. Symp. muon catalyzed 87, Gatchina (1987) 141.

  61. Gandyl E.M., Sultanov R.A., Zubarev A.L. The coefficient of muon-helium sticking. Int. Symp. muon catalyzed fusion 87, Gatchina (1987) 159.

  62. Zubarev A.L. On the distinctions of the adiabatic representation convergence. Int. Symp. muon catalyzed fusion 87, Gatchina (1987) 160.

  63. Matveev V.I., Sultanov R.A., Zubarev A.L. On the shaking-off coefficient dependence on the deuterium-tritium mixture density. Int. Symp. muon catalyzed fusion 87, Gatchina (1987) 163.

  64. Brener S.E., Zubarev A.L. Low-energy exchange reactions between hydrogen isotope meso atoms. Few Body Systems 3 (1987) 33.

  65. Abdurakhmanov A., Zubarev A.,L., Latipov A., Sh., Nasyrov M. Dependence of the three-particle observables on the description of the two-particles observables. Sov. J. Nucl. Phys. 46 (1987) 217.

  66. Brener S.E., Gandyl E.M., Zubarev A.L., Komov A.L., Podkopaev A.P., Sultanov R.A. Numerical simulation of relativistic electron beam in terms of quasi-stationary approximation and nonstationary approach. Proc. VII All Union Symposium on intense beam electronics, Tomsk, 2 (1988) 33.

  67. Zubarev A.L., Isaev V.P., Komov A.L. Electric and magnetic fields of relativistic electron beam with realistic boundary conditions. Proc. VII All Union Symposium on intense beam electronics, Tomsk, 2 (1988) 76.

  68. Gandyl E.M., Zubarev A.L. The Faddeev-Hahn equations in the quantum-mechanical three-body problem. Sov. J. Part. Nucl. 19 (1988) 180.

  69. Gandyl E.M., Zubarev A.L. Calculation of muon-to-helium sticking coefficient. Sov. J. Nucl. Phys. 48 (1988) 435.

  70. Brener S.E., Zubarev A.L. Low energy collisions in the hydrogen isotope mixture. Muon Catalyzed Fusion 2(1988) 157.

  71. Gandyl E.M., Zubarev A.L., Sultanov R.A. Muon-to-helium sticking coefficient. Muon Catalyzed Fusion 2 (1988) 459.

  72. Zubarev A.L., Matveev V.I., Sultanov R.A. The account of Stark effect in the reaction He + H(1s)$\rightarrow$ (He e) + p in terms of the Faddeev-Hahn equation. Proc. Int. Conf. on Microscopic methods in Few-body theory, Kalinin (1988) 44.

  73. Gandyl E. M., Zubarev A.L., Nosirov M. The Faddeev-Hahn equations in nuclear three body problem. Proc. Int. Conf. on Microscopic methods in Few-body theory, Kalinin (1988) 46.

  74. Zubarev A.L. On the convergence of eigenfunction expansions. Theor. and Math. Phys. 76 (1988) 775.

  75. Sultanov R.A., Zubarev A.L. Spectrum of mu molecule levels with total orbital momentum L = 1. Proc. of the 4th Int. Symp. "Mesons and Light Nuclei", R. Mach, E. Truhlik, J. Zofka Ed. Bechyne Castle,(1988) 124.

  76. Belyaev V. B., Revai, J. Zubarev A.L. Dynamics of the fusion reaction in the dt$\mu$ system. Phys. Lett. B219 (1989) 157.

  77. Matveev V.I., Sultanov R.A., Zubarev A.L. The Faddeev-Hahn equations in the classical trajectory approximation for the charge exchange reaction of atomic and mesoatomic systems at low energies. Post-deadline contributed papers of the 12th Int. Conf. on Few-body problems in Physics, B.K. Jennings ed. Vancouver (1989) 1.

  78. Sultanov R.A., Zubarev A.L., Matveev V.I. Semiclassical problem of three Coulomb particles within the Faddeev-Hahn equation formalism. Phys. Rev. 42A (1990) 5414.

  79. J. Revai, A.L. Zubarev, L. Ya. Higer, V.B. Belyaev. Effect of the nuclear d-t resonance on muon sticking. - Phys. Rev. 43A (1991), 4611.

  80. A. L. Zubarev, M.Z. Nosirov. The Sturm-function method in the formalism of the Faddeev-Hahn equation. Sov. J. Nucl. Phys. 53 (1991), 566.

  81. V.I. Matveev, R.A. Sultanov, A.L. Zubarev. The Faddeev-Hahn equation in a semi-classical model. Journal of Sichuan University (P.R.C.) 28 (1991) 74.

  82. A.L. Zubarev, M.Z. Nosirov,, E.M. Gandyl. The Sturm-function method in the formalism of the Faddeev-Hahn equation for mu-molecular systems. Sov. J. Nucl. Phys. 54 (1991) 389.

  83. A.L. Zubarev and M. Nosirov. A new method for solving of the Faddeev-Hahn equation. Book of Contributions to Few-Body XIII, I.R. Afnan and R.T. Cohil ed. (1992), 12.

  84. S.E. Brener and A.L. Zubarev. The cross section for low-energy scattering of muonic hydrogen atoms. Book of contributions to Few-Body XIII, I.R. Afnan and R.T. Cohill ed. (1992), 8.

  85. L. Ya. Higer and A.L. Zubarev. The two-dimensional dd-model of dde-molecule. Book of Contributions to Few-Body XIII, I.R. Afnan and R.T. Cohill ed. (1992), 10.

  86. A.L. Zubarev. Non radiative pt-capture in pt$\mu$ molecule. Book of contributions to Few-Body XIII, I.R. Afnan and R. T. Cohill ed. (1992), 14.

  87. J. Revai, A. L. Zubarev, L. Ya. Higer, V. B. Belyaev. Effect of the nuclear dt resonance on muon sticking in mu catalyzed fusion. Few Body Syst. Suppl. 6 (1991) 326.

  88. A.L.Zubarev. Non radiative pt capture in pt$\mu$ molecule. Phys. Lett. B295 (1992) 187.

  89. Y.E. Kim, A.L. Zubarev. Coulomb barrier transmission resonance for astrophysical problem. Mod. Phys. Lett. B7 (1993) 1627.

  90. A. Zubarev, D. Roginsky. Variational principle for straight forward evaluation of wave function in quantum mechanics. Workshop on Mathematical Physics Towards the XXIst Century (Beer-Sheva, 14-19 March, 1993).

  91. A.L. Zubarev, V.B.. Mandelzweig. Exact solution of the four-body Faddeev-Yakubovsky equation for the harmonic oscillator. Phys. Rev. 50C (1994) 38.

  92. Y. E. Kim, A. L. Zubarev. Improved coulomb barrier transmission coefficient for nuclear fusion cross section. Fusion Technology 25 (1994) 475.

  93. Y.E. Kim, A.L. Zubarev. Generalized coulomb barrier transmission coefficient for solar neutrino and astrophysical problems. - Int. J. of Theoretical Physics, 33 (1994) 1861.

  94. Y. E. Kim, R. A. Rice, Rabinowitz M., Zubarev, A.L. New improved nuclear physics input for the solar neutrino problem and stellar evolutions models. Nucl. Phys. B38 (1995) 293.

  95. Y.E. Kim, A. L. Zubarev. Optical theorem and finite-range effect for nuclear reactions in astrophysics. Few-Body Systems Suppl. 8 (1995) 332.

  96. A. L. Zubarev, V. B. Mandelzweig. Exact solution of the Faddeev-Yakubovsky equations for one-dimensional systems with delta-function interaction. Phys. Rev. 52C (1995) 509.

  97. Y. E. Kim and A. L. Zubarev. Optical theorem formulation of nuclear reactions at low energies, Genshikaku Kenkyu, {\bf 40} (1995) 27.

  98. Y. E. Kim and A. L. Zubarev. Excited halo nuclear state and long range interaction in nuclear reactions. Phys. Rev. 54C (1996) 1805.

  99. Y.E. Kim, Y.J. Kim, A.L. Zubarev, and J. Yoon. Optical theorem formulation of low-energy nuclear reaction. Phys. Rev. 55C (1997) 801.

  100. Y. E. Kim, and A.L. Zubarev. Asymptotic continuum wave function for three-charged particles. Phys.Rev. 56A (1997) 521.

  101. Y.E. Kim, and A.L. Zubarev. Three-body uncertainties for the ppe reaction in nuclear astrophysics. Proc. of the 17 Intern. Conf. on Neutrino Physics and Astrophysics. Ed. Kari Enqvist, Katry Huitu, Jukka Maalamp, p. 120 (World Scientific, Singapore, 1997)

  102. Y.E. Kim, Y.J. Kim, and A.L. Zubarev. The Bateman method for multichannel scattering theory. Nuovo Cim. 112 B (1997) 1381.

  103. Y.E. Kim, and A.L. Zubarev. The Hilbert-Schmidt Theorem Formulation of the R-Matrix Theory. J. Phys. A 31 (1998) 6483.

  104. Y.E. Kim, and A.L. Zubarev. A unified construction of variational methods for the nonlinear Schr\"odinger equation, Nuovo Cim. B 113, 1161 (1998).

  105. Y.E. Kim and A.L. Zubarev. Stability of solution of the nonlinear Schr\"odinger equation for the Bose-Einstein Condensation. Phys. Lett. A 246 (1998) 389.

  106. A.L. Zubarev and Y.E. Kim. Equivalent Linear Two-Body Equations for Many-Body Systems. Phys. Lett. A 263 (1999) 33.

  107. Body Problems. J. Phys. B: At. Mol. Phys. 33 (2000) 55.

  108. Y.E. Kim and A.L. Zubarev. Equivalent Linear Two-Body Method for Many Body Problems in Atomic and Nuclear Physics. Invited paper presented at the First Asia-Pacific Conference on Few-body Problems in Physics, Noda/Kashiwa, Japan, August 23-28, 1999. Few-Body System Suppl 12,7 (2000).

  109. Y.E. Kim and A.L. Zubarev. Separable Structure of Many-Body Ground-State Wave Function. J. Phys. B: At. Mol. Phys. 33, 3905 (2000).

  110. Y.E. Kim and A.L. Zubarev. Few-Body Structure of the Ground-State wave Function for Many-Body Systems in Atomic and Nuclear Physics. Nucl. Phys. A 684 687c (2001).

  111. Y.E. Kim and A.L. Zubarev. Ground State of Charged Bosons Confined in a Harmonic Trap. Phys. Rev. A 64, 013603 (2001).

  112. Y.E. Kim and A.L. Zubarev. Interacting Electrons in Quantum Dots. Phys. Lett. A 289,155 (2001).

  113. A.L. Zubarev and Y.E. Kim. Approximation for Nonlinear Dynamics of Trapped Bose-Einstein Condensates. Phys. Rev. A 65, 035601 (2002).

  114. Y.E. Kim and A.L. Zubarev. Equivalent Linear Two-Body Method for Bose-Einstein Condensates in Time-Dependent Harmonic Traps. Phys. Rev A 66, 053602 (2002).

  115. Y.E. Kim and A.L. Zubarev. Density Functional Theory of Bosons in a Trap. Phys. Rev. A 67, 015602 (2003).

  116. Y.E. Kim and A.L. Zubarev. Cold Bose Gases Near Feshbach Resonances. Phys. Lett. A 312, 277 (2003).

  117. Y.E. Kim and A.L. Zubarev. Time-Dependent Density-Functional Theory of Trapped Gases of Boson Atoms. KSEA Lett. 31, 23 (2003).

  118. Y.E. Kim and A.L. Zubarev. Quantum Dots in Magnetic Field. Selected topics in theoretical physics and astrophysics: Collection of papers dedicated to V.B. Belyaev on the ocasion of his 70 birthday, edited by A.K. Motovilov and F.M. Penkov (JINR Press, Dubna, 2003) p. 122.

  119. Y.E. Kim and A.L. Zubarev. Three-body losses in trapped Bose-Einstein-condensed gases. Phys. Rev. A 69, 023602 (2004).

  120. A.L. Zubarev and Y.E. Kim. Density Functional Theory of Three-Body Recombination in Bose Gases. Nucl. Phys. A 737, S334 (2004).

  121. Y.E. Kim and A.L. Zubarev. Dynamics of strongly interacting Fermi gases of atoms in a harmonic trap. Phys. Lett. A 327, 397 (2004).

  122. Y.E. Kim and A.L. Zubarev. Time-Dependent Density-Functional Theory for Trapped Strongly-Interacting Fermionic Atoms. Phys. Rev. A 70, 033612 (2004).

  123. Y.E. Kim and A.L. Zubarev. Hydrodynamic modes in a trapped strongly interacting Fermi gas of atoms J. Phys. B: At. Mol. Opt. Phys. 38, L243 (2005).

 

 
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