ОСОБОВІ АРХІВНІ ФОНДИ В НАУКОВІЙ БІБЛІОТЕЦІ ОДЕСЬКОГО НАЦІОНАЛЬНОГО УНІВЕРСИТЕТУ ІМЕНІ І. І. МЕЧНИКОВА

Ivanova E. P., Ivanov L. N. Modern Trends in Spectroscopy of Multicharged Ions// Physics Rep. — 1991. — Vol. 166,N6. — P. 315-390.

Glushkov A. V., Ivanova E. P. Theoretical Study of Multicharged Ions Spectra of F- and Ne- Isoelectronic Sequence// J. Quant. Spectr. Rad. Transfer. — 1986. — Vol. 36, N2. — P. 127-145.

Ivanova E. P., Ivanov L. N., Glushkov A. V., Kramida A. E. High order corrections in the Relativistic Perturbation Theory with the model Zeroth Approximation, Mg-like and Ne-like ions //Phys. Scripta – 1985. — Vol. 32,N4. — P. 512-524.

Glushkov A. V., Ivanov L. N. Radiation Decay of Atomic States: atomic residue and gauge non-invariant contributions // Phys. Lett. A. — 1992. — Vol. 170,N1. — P. 33-37

Glushkov A. V., Relativistic quantum theory. Quantum mechanics of atomic systems. — Odessa: Astroprint, 2008. — 900P.

Glushkov A. V., Lovett L., Florko T. A., et al, Gaugeinvariant QED perturbation theory approach to studying the nuclear electric quadrupole moments, hyperfine structure constants for heavy atoms and ions// Frontiers in Quantum Systems in Chemistry and Physics (Springer). — 2008. — Vol. 18. — P. 505-522.

Sobel’man I. I. Introduction to theory of atomic spectra. — Moscow: Nauka, 1977.

Bunyakova Yu. Ya., Florko T. A., Glushkov A. V., Prepelitsa G. P., Laser photoemission analysis of the fractal parameters for aerosol environment: New data processing system// Photoelectronics. — 2006. — N15. — P. 48-50.

Bieron J., Froese-Fischer C., Fritzsche S., Pachucki K., Lifetime and hyperfine structure of the 3 D state of radium //J. Phys. B:At. Mol. Opt. Phys. — 2004. — Vol. 37. — P. L305–311

Khetselius O. Y., Hyperfine structure of radium// Photoelectronics. — 2005. — Vol. 14. — P. 83-85.

Gurnitskaya E. P., Heavy ion storage ring experimental and theoretical determination of the lifetimes for the iron ion levels// Photoelectronics. — 2005. — Vol. 14. — P. 50-54.

Glushkov A. V., Ambrosov S. V., Loboda A. V., Gurnitskaya E. P., Khetselius O. Yu., QED calculation of heavy multicharged ions with account for correlation, radiative and nuclear effects// Recent Advances in Theor. Phys. & Chem. Systems. — 2006. — Vol. 15. — P. 285-300.

Ostrovsky V. N., Sheynerman S. A. Radiation transitions in the external shells of ion Hg+// Opt. Spectr. — 1989. — Vol. 67. — P. 16-22.

Dorofeev D. L., Zon B. A., Kretinin I. Y., Chernov V. E., Method of the Quantum Defect Green’s

Function for Calculation of Dynamic Atomic Polarizabilities// Opt. Spectr. — 2005. — Vol. 99. — P. 540- 548.

Sahoo B. K., Gopakumar G., Chaudhuri R. K., Das B. P., Merlitz H., Mahapatra U. S., Makherjee D., Magnetic dipole hyperfine interactions in 137Ba+ and the accuracies of neutral weak interaction matrix elements//Phys. Rev. A-2003. — Vol. 68. — P. 040501.

Derevianko A., Porsev S. G., Dressing lines and vertices in calculations of matrix elements with the coupled-cluster method and determination of Cs atomic properties// Phys. Rev. A. — 2005. — Vol. 71. — P. 032509.

Safronova U. I., Safronova M. S., Third-order relativistic many-body calculations of energies, transition rates, hyperfine constants, and blackbody radiation shift in 171Yb+//Phys. Rev. A. — 2009. — Vol. 79. — P. 022512.

Glushkov A. V., Relativistic calculation and extrapolation of oscillator strengths in Fr-like ions by model potential method// Opt. Spectr. — 1991. — Vol. 70. — P. 952-955.

Glushkov A. V., New method of accounting for polarization effects in determination of probabilitites of the atomic transitions// Opt. Spectr. — 1991. — Vol. 71. — P. 395-397.

Glushkov A. V., Relativistic calculation of oscillator strengths in multicharged ions with single electron above closed shells core// Opt. Spectr. — 1992. — Vol. 72. — P. 542-547..

Glushkov A. V., Florko T. A., Gauge–invariant QED perturbation theory in determination of the oscillator strengths for dipole transitions in spectra of the rareearth elements// Preprint of I. I. Mechnikov Odessa National University. Institute of Physics: Ph-L-3. — Odessa: 2006. — 25p.

Kotochigova S. A., Identification of VUV absorption spectrum of EuI 1. Calculation of 4f7 5d(9 D)npstates//Opt. Spectr. — 1983. — Vol. 55. — P. 422- 428.

Anderson E. K., Anderson E. M., Calculation of some E1,E2,E3,M1,M2 transitions in the isoelectronic sequence of Zn//Opt. Spectr. — 1983. — Vol. 54. — P. 955-960.

Kunisz M. D., Coulomb approximation oscillator strengths for some transitions in rare earths// Acta Phys. Polon. — 1982. — Vol. a62. — P. 285-296.

Ostrovsky V. N., Sheynerman S. A., Radiation transitions in the external shells of Hg+ ion //Opt. Spectr. — 1989. — Vol. 67. — P. 16-22.

Glushkov A. V., Malinovskaya S. V., Ambrosov S. V. Spectroscopy of Neutral and Highly-ionized Atoms: Calculation of the Oscillator Strengths for Na- and Fr-like Ions// Atomic Spectra and Oscillator

Strengths for Astrophysical and Laboratory Plasmas (Proc. 5th International Colloquium on ASOSALP). — Meudon: Publications de l’Observatoire de Paris. — 1996. — P. 96-97.

Florko T. A., Theoretical determination of oscillator strengths of some transitions in the rare-earth atom of Eu//Photoelectronics. — 2007. — N16. — P. 86- 90.

Ivanova E. P., Gulov A. V. Theoretical investigation of the neon isoelectronic sequence// Atom. Data. Nucl. Data. Tabl. — 1991. — Vol. 49. — P. 1-64.

Florko T. A., Svinarenko A. A., Tables of the transitions energies and probabilities, oscillator strengths for Zn-like (Z=32-92 and Ne-like (Z=22-92) // ePreprint of I. I. Mechnikov Odessa National University. Institute of Physics: Ph-L-1. — Odessa: 2008. — 52p.