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Institute for Low Temperature Physics and Engineering of the National Academy of Sciences of Ukraine

Department of Magnetic and Elastic Properties of Solids

Head of Department: Doctor of Sciences
Gennadiy E. Grechnev
tel: +(380)-57-3405011, fax: +(380)-57-3403370, e-mail: grechnev@ilt.kharkov.ua

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Last update
07.04.2010
 

Gennadiy  E.  GRECHNEV


Head of Department, Doctor of Sciences (Solid State Physics)
Tel: +(380)-57-3405011  Fax: +(380)-57-3403370, +(380)-57-3450593
e-mail: grechnev@ilt.kharkov.ua
47 Lenin Ave., Kharkov 61103 , UKRAINE
 
[CV] [RESEARCHES] [LECTURES] [PUBLICATIONS] [COOPERATION]

CURRICULUM VITAE file pdf 46kB
 
BORN:
July 29, 1951 , Kharkov, Ukraine.

EDUCATION:
Graduated Kharkov State University, Ukraine, 1973

Ph. D. (Solid State Physics)
Thesis "Effect of temperature, impurities and pressure on the energy spectrum and magnetism in the hexagonal metals". 
Institute for Low Temperature Physics and Engineering, Kharkov, Ukraine, 1982. 

Dr. Sci. (Solid State Physics)
"Electronic structure of d- and f-metal compounds: effects of hybridisation and spin polarization".
 Institute for Low Temperature Physics and Engineering, Kharkov, Ukraine, 2008.

APPOINTMENTS:

  • Junior Research Fellow, Institute for Low Temperature Physics and Engineering, Kharkov, Ukraine, 1975-1980.
  • Research Fellow, Institute for Low Temperature Physics and Engineering, Kharkov, Ukraine, 1980-1984.
  • Senior Research Fellow, Institute for Low Temperature Physics and Engineering, Kharkov, Ukraine, 1984 2008.
  • Head of Department,  Institute for Low Temperature Physics and Engineering, Kharkov, Ukraine, since 2008.

RESEARCH   INTERESTS:

Theoretical studies of electronic and magnetic structure of metallic and semiconducting compounds. 

Spectral properties of solids  (including optical and XAS spectra).

Calculations of equations of states and fundamental thermodynamic properties of solids.

Analysis of electronic states hybridisation and its relation to bulk, elastic, and magnetic
properties.

Magnetic properties of transition, rare-earth, and actinide metals and compounds

  • spin-polarized and heavy-fermion systems 
  • magnetic oxides 
  • spin and orbital magnetic moments 
  • pressure effect on magnetic susceptibility 
  • theoretical studies of the de Haas - van Alphen effect 
  • calculations of conduction electron g-factors
CALCULATION METHODS
We employ modern implementations of the Density Functional Theory for ab initio calculations of electronic and magnetic structures of solids, such as:

Linear muffin-tin orbital methods, in atomic sphere approximation (LMTO-ASA), 
and full potential FP-LMTO.
Both methods are modified to take into account effects of external magnetic field.

Ab initio pseudopotential and augmented spherical waves (ASW) methods.

RECENT IMPORTANT RESULTS

Ab initio calculated anisotropic magnetic susceptibilities of hexagonal transition metals.

Theoretically studied anisotropic magnetic properties of HCP iron in the Earth inner core,
and its possible relation to the seismic anisotropy of Earth.

Theoretical investigations of electronic structure, stability, magnetic and electro-chemical properties of potential lithium batteries based on Mn oxides.

Analysis of elastic properties of super hard materials, such as transition metals dioxides and dodecaborides.

The studies of magnetovolume effects in compounds of transition, rare-earth metals and actinides.

Detailed calculations of electronic structures, elastic and magnetic properties of
rare-earth hexaborides and dodecaborides.



LECTURES GIVEN ABROAD WITHIN LAST 5 YEARS
  • Magnetic anisotropy of HCP-iron and seismic anisotropy of Earth inner core. (Moscow, Russia, 2002).
  • Electronic and optical spectra of spinel oxides and novel lithium batteries. (Uppsala, Sweden, 2003; Sochi, Russia, 2003).
  • Magnetic and bulk properties of MBx compounds. (Kosice, Slovakia, 2004). 
  • Optical and magnetic properties of rare-earth borides. (Uppsala, Sweden, 2005; Moscow, Russia, 2005).
  • Electronic structure and bulk properties of hexa- and dodecaborides. (Wroclaw, Poland, 2006).
  • Electronic structure and optical spectra of TX2 compounds. (Beregove, Crimea, Ukraine,2007).

PUBLICATIONS

THESES DIRECTED

  • "Electronic structure and de Haas - van Alphen effect in Gd-Mg compounds", V. V. Khotkevich, Kharkov, Ukraine, 1989.
  • "Anisotropy of conduction electron g-factors in transition metals", N. V. Savchenko, Kharkov, Ukraine, 1992.
RECENT PRINCIPAL PAPERS
  • G. E. Grechnev, R. Ahuja, B. Johansson, O. Eriksson, Electronic structure, magnetic, and cohesive properties of LixMn2O4: Theory. Phys. Rev. B, 65, 174408 (2002).
  •  H. W. Hugosson, G. E. Grechnev, R. Ahuja, U. Helmersson, L. Sa, O. Eriksson, Stabilization of potential superhard RuO2 phases: a theoretical study, Phys. Rev. B 66, 174111 (2002).
  •  G. E. Grechnev, R. Ahuja, O. Eriksson. Magnetic susceptibility of hcp iron and the seismic anisotropy of Earth's inner core Phys. Rev. B 68, 64414 (2003).
  • G. E. Grechnev, V. B. Pluzhnikov, A. Czopnik, O. Eriksson, Pressure effect on the Fermi surface and electronic structure of LuGa3 and TmGa3. Low Temp. Phys., 31, 412 (2005).
  • G. E. Grechnev, A. E. Baranovskiy, A. V. Logosha, N. Yu. Shitsevalova, I. V. Svechkarev, O. Eriksson, Electronic structure and magnetic properties of semiconducting and semimetallic borides. Physica Status Solidi, 3 , 229 (2006).
  • A. E. Baranovskiy, G. E. Grechnev, V. D. Fil, T. V. Ignatova, A. V. Logosha, A. S. Panfilov, I. V. Svechkarev, N. Y. Shitsevalova, V. B. Filippov, O. Eriksson. Electronic structure, bulk and magnetic properties of MB6 and MB12 borides. Journal of Alloys and Compounds, 442, N2, 228-230 (2007).
  • G.E. Grechnev, A.E. Baranovskiy, V.D. Fil, T.V. Ignatova, I.G. Kolobov, A.V. Logosha, N.Yu. Shitsevalova, V.B. Filippov, O. Eriksson. Electronic structure and bulk properties of MB6 and MB12 borides. Low Temp. Phys. vol.34, N11 (2008), accepted.
LIST OF PAPERS

1. G. E. Grechnev, I. V. Svechkarev, Effect of energy spectrum features on the orbital magnetism in beryllium. Sov. J. Low Temp. Phys. 3, 374 (1977).
2. G. E. Grechnev, I. V. Svechkarev, Yu. P. Sereda, Anomalous temperature dependence of the magnetic susceptibility of beryllium. Sov. Phys. JETP 48, 502 (1978).
3. J. W. McClure, I. V. Svechkarev, G. E. Grechnev, Magnetic properties and energy-spectrum parameters of Cd1-xMgx, alloys. Sov. J. Low Temp. Phys. 4, 722 (1978).
4. G. E. Grechnev, Pseudopotential construction of kp models for energy spectra: the quasidegenerate spectrum in cadmium. Sov. J. Low Temp. Phys. 6, 127 (1980).
5. G. E. Grechnev, I. V. Svechkarev, J. W. McClure. Magnetic properties and energy spectrum of Cd1-xMgx alloys. Sov. J. Low Temp. Phys. 6, 154 (1980).
6. G. E. Grechnev, I. V. Svechkarev. Effect of homovalent impurities and pressure on the magnetic properties and energy spectrum parameters of cadmium. Sov. J. Low Temp. Phys. 7, 551 (1981).
7. G. E. Grechnev, I. V. Svechkarev, Yu. P. Sereda. Influence of uniform compression on magnetic susceptibility and electronic structure of Cd-Mg alloys (in Russian). High Pressure Physics, 10, 93 (1982).
8. G. E. Grechnev. Effect of temperature, impurities and pressure on the energy spectrum and magnetism in the hexagonal metals. (in Russian) Doctoral thesis, Institute for Low Temperature Physics, Kharkov, 1982.
9. S. A. Vorontsov, G. E. Grechnev. Temperature dependence of the Knight shift in Cd-Mg alloys. Sov. J. Low Temp. Phys. 9, 460 (1983).
10. G. E. Grechnev. Effect of pressure and impurities on the electronic spectrum of cadmium. Sov. J. Low Temp. Phys. 9, 548 (1983).
11. G. E. Grechnev, I. V. Svechkarev. Effect of temperature on the band structures of cadmium and beryllium (in Russian). Fiz. Metal. and Metalloved., 57, 238 (1984).
12. V. V. Khotkevich, V. B.Pluzhnikov, I. V.Svechkarev, G. E.Grechnev, J. R.Anderson, W.E.Pickett, Electronic energy spectrum and de Haas-van Alphen effect in ordered compound Cd3Mg. Sov. J. Low Temp. Phys. 10, 431 (1984).
13. G. E. Grechnev, I. V. Svechkarev, V. V. Khotkevich, Band structure and stability of compound Cd3Mg. Sov. J. Low Temp. Phys. 10, 548 (1984).
14. G. E. Grechnev. Effect of high intensity ultrasound on band structure of metals. Sov. J. Low Temp. Phys. 11, 102 (1985).
15. G. E. Grechnev, I. V. Svechkarev. Magnetic susceptibility of Be1-xCux, alloys (in Russian). Physics of Metals, 60, 723, (1985).
16. G. E. Grechnev, I. V. Svechkarev, N. V. Ushakova. Effect of temperature on the aluminum band structure (in Russian). Physics of Metals, 62, 202 (1986).
17. G. E. Grechnev, I. V. Svechkarev. Electronic structure and magnetic properties of inter-metallic compound TiCo. Sov. J. Low Temp. Phys. 13, 309 (1987).
18. H. L. Skriver, G. E. Grechnev, V. O. Krouglov, I. V. Svechkarev. Band structure of iron digermanide. Sov. J. Low Temp. Phys. 13, 438 (1987).
19. G. E. Grechnev, N. V. Savchenko, I. V. Svechkarev, V. N. Antonov, A.V. Zhalko-Titarenko, M.J.G. Lee, J.M. Perz.  Anisotropy of conduction electrons Zeeman splitting in palladium and gold. Sov. J. Low Temp. Phys. 13, 689 (1987).
20. G. E. Grechnev, N. V. Savchenko, I. V. Svechkarev, V. N. Antonov, A. V. Zhalko-Titarenko, M.J.G. Lee, J.M. Perz. Anisotropy of conduction electron g-factors in transition metals. Phys. of Trans. Metals (Intern. Conf.), Proceedings, Kiev, 88-91 (1988).
21. N. V.Savchenko, G. E.Grechnev. The g-factor of conduction electrons of some HCP transition metals. Sov. J. Low Temp. Phys. 15, 680 (1989).
22. G. E. Grechnev, N. V. Savchenko, I. V. Svechkarev, M. J. G. Lee, J. M. Perz. Conduction-electron g-factors in the noble metals. Phys. Rev. B. 39, 9865 (1989).
23. S. Bakai, G. E. Grechnev, G. G. Kvachantiradse, I. V. Svechkarev. Induced polymorphic transformations in Nb under the carbon implantation (in Russian). Physics of Metals, 67, 871 (1989).
24. N. V. Savchenko, G. E. Grechnev. Anisotropy of conduction electron g-factors in molybdenum and tungsten. Sov. J.Low Temp. Phys. 15, 370 (1989).
25. G. E. Grechnev, N. V. Ushakova. The band structure and stability of transition metal's berrylides with CsCl crystal structure (in Russian). Metal. Phys. (Kiev) 12, 6 (1990).
26. G. E. Grechnev, J. Kubler, I. V. Svechkarev. Itinerant magnetism and electronic properties of FeGe2, J. Phys.: Condens. Matter, 3, 7199 (1991).
27. G. E. Grechnev, G. G. Kvachantiradze, N. A. Papuashvili, K. S. Khorebov. The induced polymorphous transformations in molybdenum during carbon and nitrogen implantations. Journal of Technical Phys. (in Russian), 61, 93, (1991).
28. G. E. Grechnev, N. V. Savchenko, I. V. Svechkarev. Anisotropy in the g-factors of conduction electrons in bcc transition metals (vanadium, niobium, and tantalum). Sov. J. Low Temp. Phys. 17, 449, (1991).
29. V. V. Khotkevich, G. E. Grechnev. Electronic structure of intermetallic compounds in the Cd-Mg system. Sov. J. Low Temp. Phys. 18, 619, (1992).
30. G. E. Grechnev, A. S. Panfilov, Yu.Ya. Pushkar', I.V. Svechkarev. Pressure effect on the exchange-enhanced itinerant paramagnetism of Ni3Al compound (in Russian). High Pressure Physics, 21, 315 (1993).
31. G. E. Grechnev, N. V. Savchenko, I. V. Svechkarev. Conduction-electron g-factors in transition metals. Proceedings of contributed papers of International conference "Physics in Ukraine", Kiev, Inst. Theor. Phys., 1993, p. 119 - 122.
32. G. E. Grechnev, T. Jarlborg, A. S. Panfilov, M. Peter, I.V. Svechkarev, Effect of pressure on the electronic structure and magnetic susceptibility of FeSi. Solid State Commun. 91, 835 (1994).
33. G. E. Grechnev, I. V. Svechkarev, Yu. V. Fomenko, Anders Hjelm. Electronic Structure of Intermetallic Compounds HoIn3 and TmGa3. Low Temp. Physics, 21, 333 (1995).
34. P. E. Brommer, G. E. Grechnev, J. J. M. Franse, A. S. Panfilov, Yu. Ya. Pushkar, I. V. Svechkarev. Pressure effect on the enhanced itinerant paramagnetism of Ni3Al and TiCo compounds. J. Phys.: Condens. Matter, 7, 3173 (1995).
35. G. E. Grechnev, A. S. Panfilov, I. V. Svechkarev, K. H. J. Buschow, A. Czopnik. Conduction electron mediated exchange coupling in heavy rare earth metal compounds RM and RM3. J. Alloys and Compounds, 226, 107 (1995).
36. G. E. Grechnev, A. S. Panfilov, I. V. Svechkarev, A. Czopnik, A. Hackemer. Magnetovolume effect in paramagnetic alloys of CeIn3-xSnx. J. Magn. and Magn. Mater. 157-158, 677 (1996).
37. G. E. Grechnev, A. S. Panfilov, I. V. Svechkarev, D. Kaczorowski, R. Troc, A. Czopnik. Effect of pressure on magnetic properties of U(Ga1-xSnx)3 alloys. J. Magn. and Magn. Mater. 157-158, 702 (1996).
38. G. E. Grechnev, A. S. Panfilov, I. V. Svechkarev. Pressure effect on the enhanced paramagnetism of MnSi. J. Magn. and Magn. Mater. 157-158, 711 (1996).
39. K. H. J. Buschow, G. E. Grechnev, Anders Hjelm, Y. Kasamatsu, A. S. Panfilov, I. V. Svechkarev. Exchange coupling in GdM compounds. J. Alloys and Compounds, 244, 113 (1996).
40. G. E. Grechnev, Anna Delin, O. Eriksson, B. Johansson, A. S. Panfilov, I.V . Svechkarev, D. Kaczorowski. Pressure effect on magnetic properties of UGa3. Acta Physica Polonica, 92, 331 (1997).
41. G. E. Grechnev, A. S. Panfilov, I. V. Svechkarev, K. H. J. Buschow, Anders Hjelm, Y. Kasamatsu. Exchange coupling in GdM compounds. Acta Physica Polonica, 92, 267 (1997).
42. G. E. Grechnev, A. S. Panfilov, I. V. Svechkarev, P. E. Brommer, J. J. M. Franse, F. E. Kayzel. Pressure effect on electronic structure and magnetic properties of RNi5. Physica B, 237-238, 532 (1997).
43. K. H. J. Buschow, G. E. Grechnev, Anders Hjelm, Y. Kasamatsu, A. S. Panfilov, I. V. Svechkarev. Magnetic properties of GdM compounds. Role of d-electrons. Physica B, 237-238, 570 (1997).
44. G. E. Grechnev, N. V. Ushakova, G. G. Kvachantiradze, P. D. Kervalishvili, K. S. Khorebov. Electronic structure of diborides of 3d metals. Low Temp. Phys, 23, 217 (1997).
45. G. E. Grechnev, A. S. Panfilov, I. V. Svechkarev, A. Czopnik, W. Suski, A. Hackemer. Effect of pressure on the magnetic susceptibility of Celn3-xSnx alloys. J.Phys. Cond. Matter, 9, 6921 (1997)
46. S. Panfilov, I. V. Svechkarev, A. Delin, O. Eriksson, B. Johansson, J. M. Wills. Atomic volume effect on electronic structure and magnetic properties of UGa3 compound. "Itinerant Electron Magnetism", NATO ASI series book, Kluwer, 1998.
47. S. Panfilov, I. V. Svechkarev, A. Delin, O. Eriksson, B. Johansson, J.M. Wills. Magnetovolume effect in UGa3. J. Magn. Magn. Mater., 192, 137 (1999)
48. V. B. Pluzhnikov, A. Czopnik, G. E. Grechnev, N. V. Savchenko, W. Suski. Band structure and Fermi surface of TmGa3. Phys. Rev. B, 59, 7893 (1999).
49. V. B. Pluzhnikov, A. Czopnik, G. E. Grechnev. The Fermi surface of ErGa3. J.Phys. Cond. Matter, 11, 4507 (1999).
50. V. B. Pluzhnikov, A. Czopnik, O. Eriksson, G.E. Grechnev, Yu.V. Fomenko. Effect of pressure on the Fermi surface and electronic structure of ErGa3. Low Temp. Phys., 25, 670 (1999).
51. G. E. Grechnev, O. Eriksson, B. Johansson, P. A. Korzhavyi, I. V. Svechkarev. Itinerant magnetism in RNi5_xCux (R= Y, Pr, Gd) alloys. Proceedings of the Moscow International Symposium on Magnetism. p.75-78 (2000).
52. G. E. Grechnev, H. W. Hugosson, R. Ahuja, O. Eriksson, Structural Evolution and Hardness of Transition Metal Dioxides at High Pressures, High Pressure Physics and Technology, 10, 100 (2000).
53. G. E. Grechnev, A. S. Panfilov, I. V. Svechkarev, D. Kaczorowski, A. Hackemer, O. Eriksson, Magnetovolume effect in UX3 (X = Si, Ge, and Ga) compounds, Materials Science Forum, 373-376, 653 (2001).
54. G. E. Grechnev, R. Ahuja, B. Johansson, O. Eriksson, Electronic structure, magnetic, and cohesive properties of LixMn2O4: Theory. Phys. Rev. B, 65, 174408 (2002).
55. S. Panfilov, G. E. Grechnev, I. V. Svechkarev, H. Sugawara, H. Sato, O. Eriksson, Effect of pressure on the magnetic susceptibility of CeCo2, Physica B, 319, 268 (2002).
56. G. E. Grechnev, A. S. Panfilov, I. V. Svechkarev, A. Czopnik, D. Kaczorowski, A. Hackemer, O. Eriksson, Pressure effect on magnetic properties of UX3 (X = Al, Ga, In, Si, Ge) compounds. High Pressure Physics and Technology, 12, 9 (2002).
57. H. W. Hugosson, G.E. Grechnev, R. Ahuja, U. Helmersson, L. Sa, O. Eriksson, Stabilization of potential superhard RuO2 phases: a theoretical study, Phys. Rev. B 66, 174111 (2002).
58. G. E. Grechnev, A. E. Baranovskiy, A. S. Panfilov, I. V. Svechkarev, A.V. Logosha, Pressure effect on electronic structure and magnetic properties of RM2 compounds, High Pressure Physics and Technology, 12, 19 (2002).
59. E. Baranovskiy, G. E. Grechnev, G. P. Mikitik, I. V. Svechkarev, Anomalous diamagnetism in the intermetallic compounds CaPb3 and YbPb3, Low Temp. Phys. 29, 473 (2003).
60. G. E. Grechnev, R. Ahuja, B. Johansson, O. Eriksson, Electronic structure and magnetic properties of lithium manganese spinels, J. Magn. Magn. Mater. 258, 287 (2003).
61. E. Baranovskiy, G. E. Grechnev, I. V. Svechkarev, O. Eriksson, Electronic structure and magnetic properties of GdM2 compounds J. Magn. Magn. Mater. 258, 520 (2003).
62. G. E. Grechnev, R. Ahuja, O. Eriksson. Magnetic susceptibility of hcp iron and the seismic anisotropy of Earth's inner core Phys. Rev. B 68, 64414 (2003).
63. G. E. Grechnev, R. Ahuja, Jinghua Guo, O. Eriksson, Electronic structure and optical spectra of novel rechargeable lithium batteries. Proceedings of the SPIE - The International Society for Optical Engineering, 5507, p.35-44 (2003).
64. G. E. Grechnev, R. Ahuja, O. Eriksson. Magnetic properties of iron and the seismic anisotropy of Earth core. High Pressure Physics and Technology, 13, 14 (2003).
65. G. E. Grechnev, A. S. Panfilov, I. V. Svechkarev, A. Czopnik, A. Hackemer, D. Kaczorowski, O. Eriksson, Pressure effect on magnetic properties of UX3 (X = Al, Ga, In, Si, Ge) compounds. Czechoslovak Journal of Physics 54, 359 (2004).
66. G. E. Grechnev, A. E. Baranovskiy, A. S. Panfilov, I.V. Svechkarev, A.V. Logosha, Pressure effect on magnetic susceptibility and exchange interactions in GdMx (x=1,2,3,5) compounds. High Pressure Physics and Technology, 14, 68 (2004).
67. E. Baranovskiy, G. E. Grechnev, I. V. Svechkarev, A. Czopnik, Peculiarities of diamagnetic susceptibility in RM3 compounds and alloys. Czechoslovak Journal of Physics 54, 355 (2004).
68. E. Baranovskiy, G. E. Grechnev, A. S. Panfilov, I.V. Svechkarev, Electronic structure and magnetic properties of rare-earth RM2 and RM3 compounds.  Functional Materials 11, 351 (2004).
69. A. E. Baranovskiy, G. E. Grechnev, A. S. Panfilov, I. V. Svechkarev, A. Czopnik, A. Hackemer, M. Solyga, Pressure effects on magnetic properties and electronic structure of GdIn3-xSnx alloys. Czechoslovak Journal of Physics 54, 351 (2004).
70. G. E. Grechnev, V. B. Pluzhnikov, A. Czopnik, O. Eriksson, Pressure effect on the Fermi surface and electronic structure of LuGa3 and TmGa3. Low Temp. Phys., 31, 412 (2005).
71. G. E. Grechnev, A. E. Baranovskiy, A. V. Logosha, N. Yu. Shitsevalova, I. V. Svechkarev, O. Eriksson, Electronic structure and magnetic properties of semiconducting and semimetallic borides, Physica Status Solidi (C), 3 , 229 (2006).
72. E. Baranovskiy, G. E. Grechnev, I. V. Svechkarev, Electronic spectrum peculiarities and anomalous magnetism in YbPb3, YbSn3, CaPb3 and CaSn3 compounds. Low Temp. Phys. 32, N8/9, 1119 (2006).
73. G. E. Grechnev, Optical spectra of RB6 and RB12, 17th International Conference on Spectroscopy of Molecules and Crystals, Proceedings, Kiev, National Taras Shevchenko State University, 2005, p. 97-99
74. G.E. Grechnev, A.E. Baranovskiy, A.V. Logosha, A.S. Panlov, V. D. Fil, T.V. Ignatova, N.Yu. Shitsevalova, 
O. Eriksson, Pressure effect on electronic structure and magnetic properties of MB6 and MB12 borides. High Pressure Physics and Technology, 16, N4, 110 (2006).
75. G. Grechnev, A. Logosha, A. Panlov, I. Svechkarev, O. Musil, P. Svoboda, Magnetovolume effect in CeNi5-xCux alloys. arXiv:Cond-mat/0611325 (2006).
76. G.E. Grechnev, A.V. Logosha, I.V. Svechkarev, A.G. Kuchin, Yu.A. Kulikov, P.A. Korzhavyi, O. Eriksson, Electronic structure and magnetic properties of RNi5-xCux alloys (R=Y, La, Ce). Low Temp. Phys. 32, 1140 (2006).
77. A. E. Baranovskiy, G. E. Grechnev, V. D. Fil, T. V. Ignatova, A. V. Logosha, A. S. Panfilov, I. V. Svechkarev, N. Y. Shitsevalova, V. B. Filippov, O. Eriksson. Electronic structure, bulk and magnetic properties of MB6 and MB12 borides. Journal of Alloys and Compounds, 442, N2, 228-230 (2007).
78. G. Grechnev, A. Logosha, A. Panfilov, I. Svechkarev, O. Musil, P. Svoboda, Magnetovolume effect in CeNi5-xCux alloys. High Pressure Physics and Technology, 17, N1, 59 (2007).
79. G. Kontrym-Sznajd, M. Samsel-Czekala, G. E. Grechnev, H. Sormann. Fermi surface of ErGa3. Physica Status Solidi C, 4, N9, 3879-3882 (2007).
80. G. Kontrym-Sznajd, M. Samsel-Czekala, G. Grechnev, H. Sormann, On the reliability of linear band structure methods. arXiv:Cond-mat/0709.0937 (2007).
81. A.E. Baranovskiy, G.E. Grechnev, A.S. Panlov, I.V. Svechkarev, O. Zogal, A. Czopnik, A. Hackemer, Anomalous magnetism of YbPb3: the effect of pressure. Low Temp. Phys. 33, 1028 (2007).
82. G.E. Grechnev, A.E. Baranovskiy, V.D. Fil, T.V. Ignatova, I.G. Kolobov, A.V. Logosha, N.Yu. Shitsevalova, 
V.B. Filippov, O. Eriksson, Electronic structure and bulk properties of MB6 and MB12 borides. Low Temp. Phys. 34, N11 (2008), accepted.


SCIENTIFIC  COOPERATION

  • Department of Physics, Uppsala University, Sweden
  • Institute of Metal Physics of the Ural Division of the Russian Academy of Sciences
  • Institute of Low Temperature and Structure Research, Polish Academy of Sciences, Wroclaw, Poland
  • Institute of Experimental Physics, Slovak Academy of Sciences, Kosice, Slovakia
  • Hahn Meitner Institut, Berlin, Germany
  • General Physics Institute, Russian Academy of Sciences, Moscow, Russia
  • FRANTSEVICH Institute for Problems of Materials Science,

  • Ukrainian National Academy of Sciences, Kiev, Ukraine