Victor Slavin, Head of the Laboratory

E-mail: slavin@ilt.kharkov.ua

MAILING ADDRESS : B.I Verkin Institute for Low Temperature Physics &
Engineering of Ukrainian Academy of Sciences, 47, Lenin Avenue, 61103 Kharkov

Graduated from Kharkov State University in 1992.

PhD Phys & Math, ILTPE, 1994.

DrS Phys & Math, ILTPE, 2007.

Research area: Transport and thermodynamic properties of low-dimensional disordered systems:

• Low-dimensional frustrated magnetic systems.
• Transport and thermodynamic properties of low-dimensional strongly-correlated disordered conductors.
• Quantum computing and quantum information theory.

Main achievements:

• The ground state structure of lattice systems with a long-range interparticle repulsion. Electron's stripe formation and effective lowering of the system dimension have been discovered.
• The ground state structure of one-dimensional electron system on disordered lattice. The mechanism of long-range ordering breaking was discovered.
• Wigner crystal instability in "weak" external electric fields.
• The structure of magnetization plateau in classical and quantum Shastry-Sutherland model.

Main Publications:

1. Yu.P. Blagoi, I.A. Levitsky, Yu.V. Rubin, V.V. Slavin. One-Dimensional Migration of Triplet Excitations at Low Temperatures: Polyquanylic acid-Tb complex. Chemical Phys Letters.  v. 203,pp.265-270, (1993).
2. V.V. Eremenko, V.A. Karachevtsev, A.R. Kazachkov, V.V. Shapiro, V.V. Slavin. Unusual Behaviour of the Luminescence in Quasi-One-Dimensional Antiferromagnetic Crystal CsMnCl₃*2H₂O at Low Temperature. Sol.St.Communs. v.87, No 11, pp.1027-1029 (1993).
3. V.V. Eremenko, V.A. Karachevtsev, A.R. Kazachkov, V.V. Shapiro, V.V. Slavin. Excitons Migration in Quasi-One-Dimensional Antiferromagnet CsMnCl₃*2H₂O. Phys Rev.B, v. 49, No 5, pp. 11799-11808 (1994).
4. A. Deville, B. Gaillard, V. Slavin, A.A. Stepanov. ESR in the Electron-Doped Gd_2-xCe_xCuO₄ System. Physica C 235, Part 3, p. 1641-1642 (1994).
5. V.A. Karachevtsev, I.A. Levitsky, V.V. Slavin. Monte Carlo Simulation of Exciton Trapping in Quasi-One-Dimensional Antiferromagnetic CsMnCl₃*2H₂O. J.Chem.Phys., v. 107, No 7, p. 2656-2660 (1995)
6. V.V. Eremenko, V.A. Karachevtsev, V.V. Shapiro, V.V. Slavin. Low Temperature Transport of Magnetic Excitons in the Quasi-One-Dimensional Antiferromagnet CsMnCl₃*2H₂O Doped with Cu²⁺ ions. Phys.Rev.B, v. 54, No 1, pp. 447-453 (1996).
7. A.A. Slutskin, H.A. Kovtun, V.V. Slavin. The Ground State of a Two-dimensional Lattice System with a Long-range Interparticle Repulsion. Stripe Formation and Effective Lowering of Dimension, Phys.Rev.B, v.61, p.14184-14193 (2000).
8. V.V. Slavin, A.A. Slutskin. Thermodynamics of a One-Dimensional Lattice System with Long-Range Interelectron Repulsion.   Phys.Rev.B. v. 54, N 11, pp.8095-8100 (1996).
9. V.V. Eremenko, V.A. Karachevsev, V.V. Slavin. Phonon Termoactivted  Exciton Tunnelling in Crystals of Weak Transfer Complexes N-TCPA Doped  with Nd8-TCPA. Chem.Phys., v.216, N1-2, pp.1-6 (1997).
10. A.A.Slutskin, V.V.Slavin, H.A.Kovtun. The Ground State of Two-dimensional Lattice System with a Long-Range Interparticel Repulsion. Effective Lowering of Dimension. Los Alamos Preprint Server cond.-mat. 1998 N#9808009.
11. A.A. Slutskin, V.V. Slavin, H.A. Kovtun. The Ground State of the ``Frozen'' Electron Phase in Two-Dimensional Narrow-Band Conductors with a Long-Range Interelectron Repulsion. Stripe Formation and Effective Lowering of Dimension. Loss Alamos Preprint Server cond.-mat. 1999 N#9903122.
12. A.A. Slutskin, V.V. Slavin, H.A. Kovtun. The Ground State of a Two-dimensional Lattice System with a Long-range Interparticle Repulsion. Stripe Formation and Effective Lowering of Dimension. Phys.Rev.B, v.61, p.14184-14193 (2000).
13. V.V. Slavin. Numerical studies of a one-dimensional Generalized Wigner Crystal on disordered host-lattice, International Journal of Modern Physics C, v.15, N7, pp.955-965 (2004).
14. V.V. Slavin. Low-temperature thermodynamics and the ground state structure of one-dimensional disordered electron lattice system, Phys.Stat.Sol.(b), v.241, N13, pp.2928-2937 (2004).
15. V.V. Slavin. Low-temperature thermodynamic  properties of one-dimensional disordered electron lattice system, Sol.Stat.Com., v.131, N6, pp.355-358 (2004).
16. A.A. Slutskin, V.V. Slavin. Low-temperature  thermodynamics of one-dimensional Wigner glass on a highly disordered host lattice, Physica B, v.364, N1-4, pp.321-327 (2005).
17. V.V. Slavin. Low-energy spectrum of one-dimensional generalized Wigner lattice, Phys.Stat.Sol. (b), v.242, N10, pp.2033-2040 (2005).
18. V.V. Slavin.Low-temperature thermodynamics of two-dimensional electron gas on disordered host-lattice, ФНТ, т.35, N.2, cc.197-203 (2009).
19. В.В. Славин. Монте-Карло моделирование двумерного электронного газа на неупорядоченной решетке-матрице, ФНТ, т.36, N.3, cc.307-315 (2010).
20. V.V.Slavin, A.A.Krivchikov. Monte Carlo simulation of anisotropic Shastry-Sutherland lattice in the framework of classical Heisenberg model, ФНТ, т.37, N.12, cc.1264-1268 (2011).
21. В.Г. Пирятинская, И.С. Качур, В.В. Славин, А.В. Еременко. Температурное поведение края фундаментального поглощения света в квазидвумерном кристалле MnPS₃, ФНТ, т.3 8, N.9, cc.1097-1101 (2012).
22. В.В. Славин, A.A. Кривчиков. Влияние прижимающего потенциала на устойчивость электронного кристалла над поверхностью жидкого гелия, ФНТ, т.38, N.12, cc.1390-1394 (2012).