Fine structure of angle-resolved secondary electron emission spectra in silicon VM Shatalov, OF Panchenko, OM Artamonov, AG Vinogradov, ... Solid state communications 68 (8), 719-722, 1988 | 27 | 1988 |
Mechanism of the biological impact of weak electromagnetic fields and the in vitro effects of blood degassing VM Shatalov Biophysics 57 (6), 808-813, 2012 | 26 | 2012 |
Дегазация биожидкостей как механизм биологического действия слабых электромагнитных полей ВМ Шаталов Біофізичний вісник.–2009.–Вип 23 (2), 92-99, 2009 | 23 | 2009 |
Hidden revolution of human priorities: An analysis of biographical data from Wikipedia I Reznik, V Shatalov Journal of informetrics 10 (1), 124-131, 2016 | 16 | 2016 |
Degassing of Bioliquids in Low Electromagnetic Fields V Shatalov, I Noga, A Zinchenko Electronic Journal of Biology 6 (3), 67-72, 2010 | 14 | 2010 |
Gas separation of hydrogen isotopes by means of multicell metal membrane VV Rumyantsev, VM Shatalov, GY Misuna Desalination 148 (1-3), 293-296, 2002 | 14 | 2002 |
Bubbles induced fluctuations of some properties of aqueous solutions VM Shatalov, AE Filippov, IV Noga Biophysics 57, 421-427, 2012 | 11 | 2012 |
Дегазация плазмы крови меняет скорость оседания эритроцитов АА Зинченко, ВМ Шаталов УЧЕНЫЕ ЗАПИСКИ, 95, 2010 | 11 | 2010 |
Effect of electron band structure on energy distribution of secondaries in silicon VM Shatalov, OF Panchenko Solid state communications 69 (9), 937-940, 1989 | 11 | 1989 |
Degassing as the mechanism of thermal electromagnetic fields effect on water and bioliquids V Shatalov Donetsk. Pp, 1-18, 2009 | 8 | 2009 |
Energy distribution for secondary electrons in a simple metal VM Shatalov Solid state communications 59 (1), 53-56, 1986 | 8 | 1986 |
The influence of high pressure on bio-system reaction kinetics and the preservation of vitamin C V Sukhmanov, V Shatalov, J Petrova, A Birca, L Gaceu LWT-Food Science and Technology 58 (2), 375-380, 2014 | 6 | 2014 |
Band structure and electron-electron interaction in low-energy secondary emission spectra of the (100),(110), and (111) tungsten surfaces VV Korablev, YA Kudinov, OF Panchenko, LK Panchenko, VM Shatalov Physics of the Solid State 36 (8), 1290-1293, 1994 | 6 | 1994 |
FeO double-well potential as a result of spin density redistribution OV Gornostaeva, VM Shatalov, YG Pashkevich JETP letters 89, 167-169, 2009 | 5 | 2009 |
Manifestation of the energy band structure of silicon in the low-energy spectra of the total current obtained from (100) and (111) surfaces SA Komolov, OF Panchenko, VM Shatalov Soviet physics. Solid state 34 (4), 665-667, 1992 | 5 | 1992 |
Dispersion law of excitons in diamond‐type crystals. Long‐wavelength approximation KB Tolpygo, VM Shatalov physica status solidi (b) 72 (1), K43-K47, 1975 | 5 | 1975 |
Mechanism of the biological impact of weak electromagnetic fields and in vitro effects of degassing of blood VM Shatalov Biofizika 57 (6), 1034-1040, 2012 | 4 | 2012 |
Low energy target current spectroscopy of platinum SA Komolov, OF Panchenko, VM Shatalov Fizika Tverdogo Tela 34 (11), 3489-3492, 1992 | 4 | 1992 |
Photon emission from electron-bombarded germanium VM Shatalov, OF Panchenko, KN Pilipchak, EV Zolotukhin Fizika Tverdogo Tela 31 (4), 285-286, 1989 | 4 | 1989 |
Quasi‐Molecular Model Interpretation of the Resonances in the Fundamental Absorption Region of Valence Semiconductors VM Shatalov physica status solidi (b) 88 (1), 129-133, 1978 | 4 | 1978 |