ÎÒÄÅËÅÍÈÅ ÔÈÇÈÊÈ ÒÂÅÐÄÎÃÎ ÒÅËÀ

Êàôåäðà ôèçèêè òâåðäîãî òåëà Ïóáëèêàöèè â æóðíàëàõ

1. Èëþøèí À.Ñ., Íèêàíîðîâà È.À., Öâÿùåíêî À.Â., Âèíîãðàäîâà À.Ñ., Ôîìè÷åâà Ì.Â., Ñïàæàêèí È.Â. Î òî÷êàõ ìàãíèòíîé êîìïåíñàöèè â êâàçèáèíàðíîé ñèñòåìå Yb(Fe_1-xMn_x)₂. Âåñòíèê Ìîñêîâñêîãî óíèâåðñèòåòà, ñåð. 3, Ôèçèêà. Àñòðîíîìèÿ, ¹ 2, ñ. 51-54 (2004).

2. Àâäþõèíà Â.Ì., Êàöíåëüñîí À.À., Ðåâêåâè÷ Ã.Ï. «Ñîçäàíèå

ìàòåðèàëîâ äëÿ âîäîðîäíîé ýíåðãåòèêè: ýâîëþöèÿ ñòðóêòóðû è ïðîáëåìû ïîâûøåíèÿ âðåìåíè õðàíåíèÿ âîäîðîäà â ïàëëàäèè è åãî ñïëàâàõ». Äðàãîöåííûå ìàòåðèàëû è äðàãîöåííûå êàìíè. 11 (131) ñ. 160-166 (2004).

3. Àíäðååâà Ì.À., Âäîâè÷åâ Ñ.Í., Íîçäðèí Þ.Í., Ïåñòîâ Å.Å., Ñàëàùåíêî Í.Í., Ñåìåíîâ Â.Ã., Ëèíäãðåí Á., Õýããñòðåì Ë., Íîðäáëàä Ï., Êàëüñêà Á., Ëåîïîëüä Î., Ðþôôåð Ð.Èññëåäîâàíèå òîíêîãî ⁵⁷Fe ñëîÿ âíóòðè ñâåðõïðîâîäÿùåé ñòðóêòóðû Nb(70nm)/

57Fe/[Mo/Si]*45/Si ñ ïîìîùüþ ñòîÿ÷èõ âîëí íà ñòàíöèè ÿäåðíî-ðåçîíàíñíîãî ðàññåÿíèÿ Åâðîïåéñêîãî èñòî÷íèêà ñèíõðîòðîííîãî èçëó÷åíèÿ; Èçâ. ÐÀÍ, ñåð. Ôèçè÷åñêàÿ 68, No.4, 487-492 (2004).

4. Àíäðååâà Ì.À., Ëèíäãðåí Á., Õàãñòðåì Ë., Êàëüñêà Á., Âýïïëèíã Ð., Ñåìåíîâ Â.Ã., Ñàëàùåíêî Í.Í., Ïðîõîðîâ Ê.À., ×óìàêîâ À.È., Ëåîïîëüä Î., Ðþôôåð Ð. Ñåëåêòèâíûå ïî ãëóáèíå èññëåäîâàíèÿ ïåðèîäè÷åñêèõ ìíîãîñëîéíûõ ìàãíèòíûõ ïëåíîê ìåòîäîì ÿäåðíî-ðåçîíàíñíîé áðýããîâñêîé ðåôëåêòîìåòðèè. Àêòóàëüíûå âîïðîñû ñîâðåìåííîãî åñòåñòâîçíàíèÿ, â.2, 49-57 (ISSN 1810-5452), (2004).

5. Andreeva M.A. Surface and Interface Investigations by Nuclear Resonant Scattering with Standing Waves. Hyperfine Interactions. 2004, v. 156-157, Issue 1-4, pp. 595-606.

6. Andreeva M.A., Haggstram L., Lindgren B., Kalska B., Blixt A.M., Kamali M.S., Leupold O., and Ruffer R. Nuclear Resonant Reflectivity Investigations of a Thin Magnetic ⁵⁷Fe Layer Adjacent to a Superconducting V Layer, Hyperfine Interactions, v. 156-157, Issue 1-4 p. 607-613, (2001-4).

7. Õàéäóêîâ Þ.Í., Àíäðååâà Ì.À. Âîëíîâîäíîå óñèëåíèå ðàññåÿíèÿ ñî ñïèí-ôëèïîì ïðè îòðàæåíèè ïîëÿðèçîâàííûõ íåéòðîíîâ îò ñëîèñòîé ñòðóêòóðû “ìÿãêèé ìàãíåòèê/æåñòêèé ìàãíåòèê”. Âåñòíèê Ìîñêîâñêîãî óíèâåðñèòåòà, ñåðèÿ ôèçè÷åñêàÿ, No. 2 (ìàðò-àïðåëü), ñ. 30-34, (2004).

8. Îðåøêî À.Ï., Áóøóåâ Â.À. Çåðêàëüíîå îòðàæåíèå ðåíòãåíîâñêèõ ëó÷åé â óñëîâèÿõ ñêîëüçÿùåé äèôðàêöèè íà áèêðèñòàëëå. Âåñòíèê Ìîñêîâñêîãî óíèâåðñèòåòà. Ñåðèÿ 3. Ôèçèêà. Àñòðîíîìèÿ, ¹ 5, ñ.40-43 (2003).

9. Áóøóåâ Â.À., Ìàíöûçîâ Á.È. Íåñèíõðîííîå óñèëåíèå ïðè ãåíåðàöèè òåðàãåðöîâîãî èçëó÷åíèÿ â íåëèíåéíîì îäíîìåðíîì ôîòîííîì êðèñòàëëå. Èçâåñòèÿ Àêàäåìèè íàóê, ñåðèÿ ôèçè÷åñêàÿ, ò. 67, ¹ 12, ñ. 1714-1718 (2003).

10. Ñóòûðèí À.Ã., Áóøóåâ Â.À., Ëîìîâ À.À. Âëèÿíèå îáúåìíûõ íåîäíîðîäíîñòåé íà çåðêàëüíîå îòðàæåíèå è äèôôóçíîå ðàññåÿíèå ðåíòãåíîâñêèõ ëó÷åé. Òàì æå, ò. 68, ¹ 4, ñ. 545-549 (2004).

11. Ñèëîíîâ Â.Ì., Áàëàêèðåâ È.À., Ãåíèåâ À.Þ. Ðàñ÷åò èíòåíñèâíîñòè òåðëîâîãî äèôôóçíîãî ðàññåÿíèÿ â ïîëèêðèñòàëëè÷åñêèõ ÎÖÊ è ÃÖÊ ìåòàëëàõ ïî Áîðíó ñ èñïîëüçîâàíèåì ìîäåëüíûõ ïîòåíöèàëîâ.

Âåñòíèê ÌÓ. Ñåðèÿ Ôèçèêà. Àñòðîíîìèÿ, ¹ 5, ñ. 44-47 (2004).

12. Ðûêîâà Å.À., Õóíäæóà À.Ã. Êîëè÷åñòâåííûé ôàçîâûé àíàëèç ïðè

èññëåäîâàíèè ðàñïàäà b-òâåðäîãî ðàñòâîðà â ðÿäå ñïëàâîâ íà îñíîâå òèòàíà è öèðêîíèÿ. Òàì æå. ¹ 2, ñ.72-74, (2004).

13. Àâäþõèíà Â.Ì., Àíèùåíêî À.À., Êàöíåëüñîí À.À., Ðåâêåâè÷ Ã.Ï.

Ðîëü âàêàíñèé â ñòðóêòóðíîé ðåëàêñàöèè ñïëàâîâ Pd-Mo ïîñëå ãèäðîãåíèçàöèè, ÔÒÒ, ò. 46, ¹ 2, ñ. 259-265 (2004).

14. Àâäþõèíà Â.Ì., Àíèùåíêî À.À., Êàöíåëüñîí À.À., Ðåâêåâè÷ Ã.Ï.

Äèñêðåòíàÿ ýâîëþöèÿ ñòðóêòóðû â ãèäðîãåíèçèðîâàííûõ ñïëàâàõ íà îñíîâå Pd , ÔÒÒ, ò. 46, ¹ 3, ñ. 401- 409 (2004).

15. Êóëüêîâà Ñ.Å., Åãîðóøêèí Â.Å., Åðåìååâ Ñ.Â., Áàæàíîâ Ä.È., Êóëüêîâ Ñ.Ñ., ×óäèíîâ Ä.Â. Òåîðåòè÷åñêîå èññëåäîâàíèå ïîâåðõíîñòè ìåòàëëîâ ïåðñïåêòèâíûõ äëÿ õðàíåíèÿ âîäîðîäà:

ïîâåðõíîñòíàÿ àêòèâíîñòü è àäñîðáöèîííûå ñâîéñòâà. Ôèçè÷åñêàÿ ìåçîìåõàíèêà, ¹ 7, ñ. 225, (2004).

16. Àâäþõèíà Â.Ì., Àíèùåíêî À.À., Êàöíåëüñîí À.À., Ðåâêåâè÷ Ã.Ï.

Îñîáåííîñòè ðåëàêñàöèîííûõ ïðîöåññîâ â ãèäðîãåíèçèðîâàííûõ ñèñòåìàõ íà îñíîâå Pd. Èçâåñòèÿ ÐÀÍ, ñåðèÿ ôèçè÷åñêàÿ, ò. 68, ¹ 4, ñ. 586-590 (2004).

17. Andreev A.V., Nazarov M.M., Prudnikov I.R., Shkurinov A.P., and Masselin P. “Noncollinear excitation of surface electromagnetic waves:

enhancement of nonlinear optical surface response”, Phys. Rev. B 69, 035403, 1-14 (2004).

18. Îïàëåíêî À.À., Âûñîöêèé Â.È., Êîðíèëîâà À.À. Î ôåíîìåíå îñöèëëèðóþùåãî ðàñïàäà èçîìåðà ^125mTe. Ïèñüìà â ÆÝÒÔ, ò. 79, âûï. 5, ñ. 254-256 (2004).

19. Îïàëåíêî À.À., Âûñîöêèé Â.È., Êîðíèëîâà À.À. Î âëèÿíèè ðåçîíàíñíîãî ìåññáàóýðîâñêîãî ôèëüòðà íà ðàñïàä èçîìåðà ^125mTe.

Âåñòíèê ÌÓ, ñåð. 3, Ôèçèêà. Àñòðîíîìèÿ. ¹ 1, ñ. 66-68 (2004).

20. Vysotskii V.I., Kornilova A.A. Physical foundation of long-time water memory.Ôèçè÷åñêèå îñíîâû äîëãîâðåìåííîé ïàìÿòè âîäû.

Âåñòíèê ÌÓ, ñåð. 3, Ôèçèêà. Àñòðîíîìèÿ., ñ. 58-62. Moscow University Physics Dulletin, v. 59, no. 1, p. 66 (2004).

21. Àâäþõèíà Â.Ì., Àíèùåíêî À.À., Êàöíåëüñîí À.À., Ðåâêåâè÷ Ã.Ï.

Äèñêðåòíûé õàðàêòåð íåìîíîòîííûõ ñòðóêòóðíûõ ïðåâðàùåíèé â ñèñòåìå Pd-Ta-H. Âåñòíèê ÌÓ, ñåð. 3, ò. 44, ¹ 6, ñ. 62-67 (2004).

22. Lubashevskii I.A., Hajimahmoodzadeh M., Katsnelson A.A., Wagner P. Noised-induced phase transformation in an oscillatory system with dynamic traps, Europ. Phys.J. B36, p.115-118 (2004)

23. Àëàòîðöåâ À.Â., Êóçüìèí Ð.Í., Ïðîâîðîâà Î.Ã., Ñàâåíêîâà Í.Ï.

×èñëåííîå ìîäåëèðîâàíèå ìàãíèòî-ãèäðîäèíàìè÷åñêèõ ïðîöåññîâ â àëþìèíèåâîì ýëåêòðîëèçåðå. Æóðíàë ïðèêëàäíîé ôèçèêè, ¹5, ñ. 33-42, (2004).

24. Àëàòîðöåâ À.Â., Êóçüìèí Ð.Í., Ïðîâîðîâà Î.Ã., Ñàâåíêîâà Í.Ï.

Ìàòåìàòè÷åñêîå ìîäåëèðîâàíèå ìàãíèòî-ãèäðîäèíàìè÷åñêèõ ïðîöåññîâ â Al- ýëåêòðîëèçåðå. Ñá.ÂÌÊ ÌÃӔÏðèêëàäíàÿ ìàòåìàòèêà è èíôîðìàòèêà” Ìîñêâà, Ìàêñ-Ïðåññ, ¹15, ñ. 46-61, (2004).

25. Novakova A.A., Sizov I.G., Golubok D.S., Kiseleva T.Yu., Revokatov

P.O. Electron-beam boriding of low-carbon steel. J. of Alloys and Compounds, vol. 383, p. 108-112, (2004).

26. Kiseleva T.Yu., Novakova A.A., Grigorieva T.F., Barinova A.P. Iron and Indium interactions during mechanical attrition. J. of Alloys and Compounds, vol. 383, p. 92-96, (2004).

27. Kiseleva T.Yu., Novakova A.A., Tarasov B.P., Muradyan V.E.

Mossbauer study of carbon nanostructures obtained on Fe-Ni catalyst.

Hydrogen Materials Science and Chemistry of Carbon Nanomaterials ed. By T.N. Vesirogly et al., Kluwer Academic Publishers, p.153-158 (2004).

28. Íîâàêîâà À.À., Êèñåëåâà Ò.Þ., Èëüèíà Þ.Â., Òàðàñîâ Á.Ï., Ìóðàäÿí Â.Å. Óãëåðîäíûå íàíîñòðóêòóðû, ïîëó÷åííûå íà Fe-Ni êàòàëèçàòîðå. Ìåæäóíàðîäíûé íàó÷íûé æóðíàë «Àëüòåðíàòèâíàÿ Ýíåðãåòèêà è Ýêîëîãèÿ» ISIAE, ¹ 3, ñ. 37-43, (2004).

29. Íîâàêîâà À.À., Êèñåëåâà Ò.Þ., Òàðàñîâ Á.Ï., Ìóðàäÿí Â.Å. Èññëå-äîâàíèå ìèêðîñòðóêòóðû óãëåðîäíîãî íàíîìàòåðèàëà, ïîëó÷åííîãî íà æåëåçî-íèêåëåâîì êàòèëèçàòîðå. Ïîâåðõíîñòü, ¹ 3, ñ. 70-73 (2004).

30. Êèñåëåâà Ò.Þ., Íîâàêîâà À.À., Ãðèãîðüåâà Ò.Ô., Ãâîçäîâåð Ð.Ñ., Áàðèíîâà À.Ï. Îñîáåííîñòè ìåõàíè÷åñêîãî ñïëàâëåíèÿ â ñèñòåìå Fe-In. Ïîâåðõíîñòü, ¹ 3, ñ. 105-109, (2004).

31. Îïàëåíêî À.À., Âûñîöêèé Â.È., Êîðíèëîâà À.À. Î ôåíîìåíå îñöèëëèðóþùåãî ðàñïàäà èçîìåðà ^125mTe. Ïèñüìà â ÆÝÒÔ, ò.79, âûï. 5, ñ. 254-256 (2004).

32. Îïàëåíêî À.À., Âûñîöêèé Â.È., Êîðíèëîâà À.À. Î âëèÿíèè ðåçîíàíñíîãî ìåññáàóýðîâñêîãî ôèëüòðà íà ðàñïàä èçîìåðà ^125mTe.

Âåñòíèê ÌÓ, ñåð. 3, Ôèçèêà. Àñòðîíîìèÿ. ¹ 1, ñ. 66-68 (2004).

33. Áóøóåâ Â.À., Îðåøêî À.Ï. Ðåíòãåíîâñêèå âîëíîâîäû. Ìåòàëëî-ôèçèêà è íîâåéøèå òåõíîëîãèè, ò. 26, ¹ 2, ñ. 173-185 (2004).

34. Áóøóåâ Â.À., Îðåøêî À.Ï. Òåîðèÿ ðåíòãåíîâñêîãî òîíêîïëåíî÷-íîãî âîëíîâîäà. Èçâåñòèÿ ðîññèéñêîé ÀÍ. Ñåðèÿ ôèçè÷åñêàÿ, ò.

68, ¹ 4, ñ. 548-553 (2004).

35. Îðåøêî À.Ï., Äìèòðèåíêî Â.Å., Æîëè Èâ, Êèðôåëü À., Îâ÷èííèêîâà Å.Í. Ðåçîíàíñíàÿ äèôðàêöèÿ ðåíòãåíîâñêîãî èçëó÷åíèÿ â ãåðìàíèè: òåìïåðàòóðíûé ðîñò èíòåíñèâíîñòè çàïðåùåííûõ áðýããîâñêèõ ðåôëåêñîâ. Òàì æå, ñ. 576-580, (2004).

36. Dmitrienko V.E., Ovchinnikova E.N., Ishida K., Kokubun J., Kirfel A., Collins S.P., Laundy D., Oreshko A.P., Cabaret D. Phonon effects in resonant “forbidden” reflections. Phys. Stat. Sol. (c), ¹ 11, p. 3081-3084, (2004).

37. Òðóõèí Â.È., Êîçîäåðîâ Â.Â., Êóçüìèí Ð.Í. Ìîäåëè ãåîãðàôè÷åñêèõ ïðîöåññîâ â òâåðäîé îáîëî÷êå Çåìëè è ãèäðîñôåðå. Ñá. òð. ïîä ðåä. Â.È. Òðóõèíà, Þ.À. Ïèðîãîâà, Ê.Â. Ïîêàçååâà. Ôèçè÷. ïðîáë.

ýêîëîãèè (ýêîëîãè÷åñêàÿ ôèçèêà) ¹ 12, ñ. 106-128, (2004).

38. Novakova A.A., Kiseleva T.Yu., Grigorieva T.F., Barinova A.P., Lyachov N.Z. «Mechanochemical synthesis and Sintering» Novosibirsk, 2004, p.

Òåçèñû äîêëàäîâ, ïóáëèêàöèè â òðóäàõ êîíôåðåíöèé è â ýëåêòðîííûõ èçäàíèÿõ

1. Andreeva M.A., Hàggstràm L., Lindgren B., Kalska B., Vdovichev S.N., Nozdrin Yu.N., Pestov E.E., Salashchenko N.N., Nordblad P., Blixt A.M., Kamali-M S., Semenov V.G., Leupold O., Ruffer R. Investigation of thin magnetic ⁵⁷Fe layer being in contact with superconducting V or Nb layers by means of the nuclear resonant reflectivity with standing waves. European workshop on nuclear resonant scattering for the study of nanoscale structures (24-26 March 2004, ESRF, Grenoble, France), Programme-Abstracts-List of participants, p. P-1.

2. Lindgren B., Andreeva M.A., Hàggstràm L., Kalska B., Leupold O., Ruffer R. Depth selective investigation of periodical multilayers by means of nuclear resonant Bragg reflectivities of different orders. Òàì æå, p. P-2.

3. Smekhova A.G., Andreeva M.A. About application of the sum rules to the X-ray resonant reflectivity spectra for magnetic multilayer investigation, IV^th International School on Magnetism and Synchrotron Radiation, Mittelwihr, France, October 10-15, 2004. Program and Abstracts, p. .

4. Àíäðååâà Ì.À., Ëèíäãðåí Á., Õýããñòðåì Ë., Êàëüñêà Á., Ñåìåíîâ Â.Ã., Ëåîïîëüä Î., Ðþôôåð Ð. ßäåðíî-ðåçîíàíñíàÿ ðåôëåêòîìåòðèÿ ìàãíèòíûõ ìóëüòèñëîåâ ñ èñïîëüçîâàíèåì ñèíõðîòðîííîãî èçëó÷åíèÿ, XV ìåæäóíàðîäíàÿ êîíôåðåíöèÿ ïî èñïîëüçîâàíèþ ñèíõðîòðîííîãî èçëó÷åíèÿ, 19-23 èþëÿ, 2004. Book of Abstracts.

5. Àêñåíîâ Â.Ë., Àíäðååâà Ì.À., Âýïïëèíã Ð., Êàëüñêà Á., Íèêèòåíêî Þ.Â., Ïðîãëÿäî Â.Â., Ñåìåíîâ Â.Ã., Õàéäóêîâ Þ.Í.Ðàçëè÷èå øåðîõîâàòîñòåé Fe/Cr è Cr/Fe èíòåôåéñîâ â ïåðèîäè÷åñêîé ñòðóêòóðå [Cr/⁵⁷Fe]₂₆, èç äàííûõ äèôôóçíîãî ðàññåÿíèÿ ïîëÿðèçîâàííûõ íåéòðîíîâ. XVIII ñîâåùàíèå ïî èñïîëüçîâàíèþ ðàññåÿíèÿ íåéòðîíîâ â èññëåäîâàíèÿõ êîíäåíñèðîâàííîãî ñîñòîÿíèÿ (ÐÍÈÊÑ-2004), ã. Çàðå÷íûé Ñâåðäëîâñêîé îáëàñòè. 12-16 îêòÿáðÿ 2004 ã., Ïðîãðàììà è òåçèñû, ñ. 110.

6. Ñìåõîâà À.Ã., Àíäðååâà Ì.À. Î ïðèìåíèìîñòè ïðàâèëà ñóìì â ðåôëåêòîìåòðèè ðåçîíàíñíîãî ðåíòãåíîâñêîãî èçëó÷åíèÿ äëÿ èññëåäîâàíèÿ ìàãíèòíûõ ìóëüòèñëîåâ, Ìàòåðèàëû ðàáî÷åãî ñîâåùàíèÿ «Ðåíòãåíîâñêàÿ îïòèêà -2004», Èíñòèòóò ôèçèêè ìèêðîñòðóêòóð ÐÀÍ, Íèæíèé Íîâãîðîä, 2-6 ìàÿ 2004, ñ. 138-143.

7. Àíäðååâà Ì.À. Ñïåêòðîñêîïèÿ çåðêàëüíîãî è áðýããîâñêîãî îòðàæåíèÿ – ïðîÿâëåíèÿ êîãåðåíòíûõ ýôôåêòîâ. Òàì æå, ñ. 112-8. Îðåøêî À.Ï., Äìèòðèåíêî Â.Å., Êàáàðå Ä., Êîëëèíç Ñ.Ï.,117.

Êîë÷èíñêàÿ À.Ì., Ëîíäè Ä., Îâ÷èííèêîâà Å.Í. Ìîäåëèðîâàíèå òåìïåðàòóðíûõ ýôôåêòîâ â ñïåêòðàõ “çàïðåùåííûõ” ðåíòãåíîâñêèõ îòðàæåíèé ïðè ðåçîíàíñíîé äèôðàêöèè â ZnO. // Òàì æå, ñ. 193-9. Kulkova S.E., Bazhanov D.I., Eremeev S.V., Chudinov D.V. Theoretical197.

investigation of surface electronic structure and hydrogen adsorption properties in advanced hydrogen storage materials. 2^nd Conference of the Asian Consortium for Computational Materials Science “ACCMS-2”, Novosibirsk (Russia), July 14-16 (2004), Oral talk: Abstract. p.

10. Petrov E.V., Bushuev V.A., Mantsyzov B.I. Effective THz signal122.

generation in one-dimensional photonic band gap structures arranged into THz superlattice. // Abstr. Int. Conf. Nonlinear guided waves and their applications (March 28-31, 2004, Toronto, Canada). 2004. TuC35.

11. Áóøóåâ Â.À., Ãóñüêîâà Ì.À. Ðåêîíñòðóêöèÿ èçîáðàæåíèÿ â ìåòîäå ðåíòãåíîâñêîãî ôàçîâîãî êîíòðàñòà ñ êðèñòàëëîì-àíàëèçàòîðîì â ãåîìåòðèè Ëàóý.// Òðóäû Ìåæäóíàðîäíîãî ñèìïîçèóìà

“Ðåíòãåíîâñêàÿ îïòèêà - 2004”, Íèæíèé Íîâãîðîä, 2-6 ìàÿ 2004, ñ. 87-92.

12. Áóøóåâ Â.À. Ïðîñòðàíñòâåííîå ðàçðåøåíèå ìåòîäà ðåíòãåíîâñêîãî ôàçîâîãî êîíòðàñòà â ãåîìåòðèè Ëàóý. // Òåç. 2-ãî íàó÷íîãî ñåìèíàðà ñ ìåæäóíàðîäíûì ó÷àñòèåì “Ñîâðåìåííûå ìåòîäû àíàëèçà äèôðàêöèîííûõ äàííûõ (òîïîãðàôèÿ, äèôðàêòîìåòðèÿ, ýëåêòðîííàÿ ìèêðîñêîïèÿ)”, Âåëèêèé Íîâãîðîä, 26-28 ìàÿ 2004, ñ. 54-56.

13. Áóøóåâ Â.À., Èíãàë Â.Í., Áåëÿåâñêàÿ Å.À. Ôàçîâàÿ ðåíòãåíîãðàôèÿ ìåäèêî-áèîëîãè÷åñêèõ îáúåêòîâ. // Òåç. 4-îé Âñåðîññèéñêîé íàó÷íîé êîíôåðåíöèè “Ôèçè÷åñêèå ïðîáëåìû ýêîëîãèè (ýêîëîãè÷åñêàÿ ôèçèêà)”, Ìîñêâà, ÌÃÓ, 22-24 èþíÿ 2004, ñ. 111-14. Îâ÷åíêîâà Þ.À., Íèêèòèí Ñ.À., Èâàíîâà Ò.È., Ñêóðñêèé Þ.Â.,112.

Ñêîêîâ Ê.Ï., Òåëåãèíà È.Â., Çóáåíêî Â.Â. Ïåðåîðèåíòöèÿ ìàãíèòíûõ ìîìåíòîâ ïîäðåøåòîê â ñèëüíîì ìàãíèòíîì ïîëå è ãèãàíòñêîå ìàãíèòîñîïðîòèâëåíèå â ñîåäèíåíèè Gd Mn Si. Øêîëà

– ñåìèíàð (Ðîññèéñêàÿ ÀÍ, Íàó÷íûé ñîâåò “Ôèçèêà êîíäåíñèðîâàííûõ ñðåä”, ñåêöèÿ “Ìàãíåòèçì”, ÌÃÓ èì. Ì.Â.

Ëîìîíîñîâà) ÍÎÂÛÅ ÌÀÃÍÈÒÍÛÅ ÌÀÒÅÐÈÀËÛ ÌÈÊÐÎÝËÅÊÒÐÎÍÈÊÈ\ ÍÌÌÌ ÕIÕ . Èþíü – èþëü 2004.

15. Ilyushin A.S., Perov N.S., Sheverdyaeva P.M., Shvilkin B.N., Spajakin I.V., Tsvyaschenko A.V. Magnetic properties of the pseudobinary systems Nd(Fe_1-xMe_x)₂ (Me = Co, Ni). EASTMAG – 2004, Abstract book, Krasnoyarsk, Russia, 2004, p. 169.

16. Ñïàæàêèí È.Â., Èëþøèí À.Ñ., Ðóñàêîâ Â.Ñ., Íèêàíîðîâà È.À., Âèíîãðàäîâà À.Ñ., Óìõàåâà Ç.Ñ., Öâÿùåíêî À.Â., Ôîìè÷åâà Ì.Â.

Ñâåðõòîíêèå âçàèìîäåéñòâèÿ â ñïëàâàõ êâàçèáèíàðíûõ ñèñòåì Nd(Fe_1-xCo_x)₂ è Nd(Fe_1-xNi_x)₂, ñèíòåçèðîâàííûõ ïðè âûñîêèõ äàâëåíèÿõ. IX Ìåæäóíàðîäíàÿ êîíôåðåíöèÿ «Ìåññáàóýðîâñêàÿ ñïåêòðîñêîïèÿ è å¸ ïðèìåíåíèå». Òåçèñû äîêëàäîâ, Åêàòåðèíáóðã, 2004, ñ. 131.

17. Ñïàæàêèí È.Â., Èëþøèí À.Ñ., Ðóñàêîâ Â.Ñ., Íèêàíîðîâà È.À., Âèíîãðàäîâà À.Ñ., Ôèðîâ À.È., Øâèëêèí Á.Í., Óìêàåâà Ç.Ñ.

Ìåññáàóýðîâñêèå è ðåíòãåíîâñêèå èññëåäîâàíèÿ äéòåðèäîâ

ñïëàâîâ êâàçèáèíàðíûõ ñèñòåì Nd(Fe_1-xCo_x)₂ è Nd(Fe_1-xNi_x)₂. Òàì æå, ñ.132.

18. Àâäþõèíà Â.Ì., Àíèùåíêî À.À., Êàöíåëüñîí À.À., Îëåìñêîé À.È., Ðåâêåâè÷ Ã.Ï. Èíäóöèðîâàííàÿ âîäîðîäîì íåìîíîòîííàÿ äèñêðåòíàÿ (ïðûæêîâàÿ) ñòðóêòóðíàÿ ýâîëþöèÿ â ñïëàâàõ íà îñíîâå Pd . Òðóäû Ìåæäóíàðîäíîé êîíôåðåíöèè ÂÎÌ-2004, Äîíåöê, ñ.

132-136, 2004.

19. Àâäþõèíà Â.Ì., Àíèùåíêî À.À., Êàöíåëüñîí À.À., Ðåâêåâè÷ Ã.Ï.

Íåìîíîòîííàÿ ñòðóêòóðíàÿ ýâîëþöèÿ â ñïëàâàõ íà îñíîâå Pd è ïðîáëåìû áåçîïàñíîñòè âîäîðîäíîé ýíåðãåòèêè. Òåçèñû äîêëàäîâ IV Âñåðîññèéñêîé êîíôåðåíöèè «Ôèçè÷åñêèå ïðîáëåìû ýêîëîãèè»

Ìîñêâà, Èçä-âî ÌÃÓ, ñ. 149-150 (2004).

20. Íåäåëüêî Â.È., Ïðóäíèêîâ Â.Í., Õóíäæóà À.Ã. Ìèðîâîççðåí÷åñêàÿ êîìïîíåíòà ýêîëîãè÷åñêîãî îáðàçîâàíèÿ. Òàì æå, ñ. 238-239.

21. Àâäþõèíà Â.Ì., Êàöíåëüñîí À.À., Ðåâêåâè÷ Ã.Ï. Ñîçäàíèå ìàòåðèàëîâ äëÿ âîäîðîäíîé ýíåðãåòèêè áóäóùåãî: ýâîëþöèÿ ñòðóêòóðû è ïðîáëåìû ïîâûøåíèÿ âðåìåíè õðàíåíèÿ âîäîðîäà â ïàëëàäèè è åãî ñïëàâàõ. Ìåæäóíàðîäíûé Ñèìïîçèóì “Âîäîðîäíàÿ ýíåðãåòèêà áóäóùåãî è ìåòàëëû ïëàòèíîâîé ãðóïïû â ñòðàíàõ ÑÍÔ, Ì. Èçä ÌÈÐÝÀ, ñ. 25-31 (2004).

22. Àâäþõèíà Â.Ì., Êàöíåëüñîí À.À., Ðåâêåâè÷ Ã.Ï., Ðóñíÿê Þ.È.

Íåìîíîòîííûå ðåëàêñàöèîííûå ïðîöåññû â ñïëàâå Pd-Er ïîñëå íàñûùåíèÿ åãî âîäîðîäîì. Òàì æå, ñ. 67-69 (2004) .

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24. Lubashevskii I.A., Reinhard Mahnke, Hajimahmoodzadeh M., Katsnelson A.A. Long-lived states of oscillatory chains with dynamic traps. ArXiv: cond-mat/ 0407324 (2004).

25. Vysotskii V.I., Odintsov A., Tashirev A.B., Korniliva A.A., Pavlovich V.N. Experiments on controlled decontamination of water mixture of different long lived active isotopes in biological cells. 1Ith International Conference on Condensed Matter Nuclear Science, France, 31 Okt-5, Book of abstracts, p. 99, Nov. 2004.

26. Vysotskii V.I., Korniliva A.A. The spatial structure of water and the problem of controlled LENR in water matrix. Òàì æå, p.101, Nov 2004.

27. Vysotskii V.I., Shevel A.V.N., Tashirev A.B., Korniliva A.A.

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28. Òðóõèí À.Â., Êîçîäåðîâ Â.Â., Êóçüìèí Ð.Í., Óøàêîâ Ñ.À. Ìîäåëè îïèñàíèÿ ãåîôèçè÷åñêèõ ïðîöåññîâ íà îñíîâå äàííûõ ñïóòíèêîâîãî ìîíèòîðèíãà. Äîêëàä íà Ìåæäóíàðîäíîé êîíôåðåíöèè: Ñîâðåìåííûå ïðîáëåìû äèñòàíöèîííîãî çîíäèðîâàíèÿ Çåìëè èç êîñìîñà. Ìîñêâà, ÈÊÈ ÐÀÍ, 15-18 íîÿáðÿ, ñ. 8 (2004).

29. Êóçüìèí Ð.Í. Âìåñòî ââåäåíèÿ. Ãäå ëó÷øå çàðûòü çîëîòîé?. Òðóäû 11-îé Ðîññèéñêîé êîíôåðåíöèè ïî õîëîäíîé òðàíñìóòàöèè ÿäåð õèìè÷åñêèõ ýëåìåíòîâ è øàðîâîé ìîëíèè. Ìîñêâà,ñ. 8-10 (2004).

30. Àëàòîðöåâ À.Â., Êóçüìèí Ð.Í., Ïðîâîðîâà Î.Ã., Ñàâåíêîâà Í.Ï.

Èññëåäîâàíèå ÌÃÄ íåñòàáèëüíîñòè â àëþìèíèåâîì ýëåêòðîëèçåðå.

Ñá.òðóäîâ 11-îé Ìåæäóíàðîäíîé êîíôåðåíöèè: “Ìàòåìàòèêà.

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31. Àëàòîðöåâ À.Â., Êóçüìèí Ð.Í., Ïðîâîðîâà Î.Ã., Ñàâåíêîâà Í.Ï.

Èññëåäîâàíå ÌÃÄ íåñòàáèëüíîñòè â àëþìèíèåâîì ýëåêòðîëèçåðå.

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30. Íåäåëüêî Â.È., Ïðóäíèêîâ Â.Í., Õóíäæóà À.Ã. Åäèíûé ãîñóäàðñòâåííûé èëè âñòóïèòåëüíûé ýêçàìåí ïî ôèçèêå – àíàëèç ñèòóàöèè. Òðóäû ñîâåùàíèÿ-ñåìèíàðà «Ôèçèêà â ñèñòåìå ïîäãîòîâêè ñòóäåíòîâ íåôèçè÷åñêèõ ñïåöèàëüíîñòåé óíèâåðñèòåòîâ â óñëîâèÿõ ìîäåðíèçàöèè îáðàçîâàíèÿ», Àñòðàõàíü, 2004, ñ. 18-20.

33. Andreeva M.A. Investigation of thin magnetic ⁵⁷Fe layer buried under superconducting Nb or V layer by means of the nuclear resonant scattering. INTAS WORKSHOP “Hierarchy of scales in magnetic nanostructuress” and “Tunability of exchange coupling with hydrigen”, St.-Petersburg State University, June 15-20, 2004, ñ. 2.

34. Èëüèíà Þ.Â., Êèñåëåâà Ò.Þ., Íîâàêîâà À.À., Òàðàñîâ Á.Ï., Ìóðàäÿí Â.Å. Èññëåäîâàíèå ýôôåêòèâíîñòè Fe-Ni êàòàëèçàòîðà äëÿ ïîëó÷åíèÿ îïòèìàëüíîãî âûõîäà îäíîñòåííûõ óãëåðîäíûõ íàíîòðóáîê. Òåçèñû äîêëàäîâ ìåæäóíàðîäíîé êîíôåðåíöèè

«Ôóëëåðåíû è ôóëëåðåíîïîäîáíûå ñòðóêòóðû â êîíäåíñèðîâàííûõ ñðåäàõ» Ìèíñê, 2004, ñ. 64-65.

35. Íîâàêîâà À.À., Èëüèíà Þ.Â., Ñòåïàíîâ Å.È., Âîëîäèí À.À., Òàðàñîâ Á.Ï. Èññëåäîâàíèå ñòðóêòóðíûõ èçìåíåíèé â ÷àñòèöàõ ìåòàëëà-êàòàëèçàòîðà â ïðîöåññå ïèðîëèçíîãî ñèíòåçà íàíîâîëîêîí. Òåçèñû äîêëàäîâ Òðåòüåé Ìåæäóíàðîäíîé êîíôåðåíöèè «Óãëåðîä: ôóíäàìåíòàëüíûå ïðîáëåìû íàóêè, ìàòåðèàëîâåäåíèå, òåõíîëîãèÿ» Ìîñêâà, ÌÃÓ, 2004, ñ.177.

36. Ìóòèãóëëèí È.Â., Áàæàíîâ Ä.È., Íîâàêîâà À.À., Ïîòàïêèí Á.Â., Êàöíåëüñîí À.À. Èçó÷åíèå ñâîéñòâ óãëåðîäíûõ ïðèìåñåé â êðèñòàëëè÷åñêèõ ñòðóêòóðàõ æåëåçà è íèêåëÿ ìåòîäàìè ïåðâîïðèíöèïíîé ìîëåêóëÿðíîé äèíàìèêè. Òàì æå, ñ. 171.

37. Íîâàêîâà À.À., Ãîëóáîê Ä.Ñ., Êèñåëåâà Ò.Þ., Õìåëåâñêàÿ Â.Ñ., Ìàëûíêèí Â.Ã. Èññëåäîâàíèå ðàäèàöèîííî-ìîäèôèöèðîâàííîãî ïîâåðõíîñòíîãî ñëîÿ ñïëàâà Fe-Cr-Ni-Ti. Òåçèñû äîêëàäîâ III Ìåæäóíàðîäíîé êîíôåðåíöèè «ôàçîâûå ïðåâðàùåíèÿ è ïðî÷íîñòü êðèñòàëëîâ» ×åðíîãîëîâêà, 2004, ñ. 197.

38. Íåäåëüêî Â.È., Ïðóäíèêîâ Â.Í., Õóíäæóà À.Ã. Ôèçè÷åñêèå ìîäåëè ìèðîçäàíèÿ â êîíöåïöèè ñîâðåìåííîãî ýâîëþöèîíèçìà. Òàì æå, ñ. 61-63.

39. Novakova A.A., Gendler T.S., Lanchinskaya V.Yu., Kiselevs T.Yu.

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40. Îðåøêî À.Ï., Äìèòðèåíêî Â.Å., Îâ÷èííèêîâà Å.Í. Ab initio ðàñ÷åò ñïåêòðîâ òåðìîèíäóöèðîâàííûõ “çàïðåùåííûõ” áðýããîâñêèõ îòðàæåíèé â ZnO. // Abstr. 15th International Synchrotron Radiation Conference “SR-2004”. Novosibirsk, Russia, 19-23 July 2004. P. 43.

41. Dmitrienko V.E., Ovchinnikova E.N., Ishida K., Kirfel A., Collins S.P., Oreshko A.P., Cabaret D., Vedrinskii R.V., Kraizman V.L., Novakovich A.A., Krivitskii E.V., Tolochko B.P. Atomic displacement effects in near-edge resonant “forbidden” reflections. // Òàì æå. P. 46.

42. DmitrienkoV.E., OvchinnikovaE.N., IshidaK., Kirfel A., CollinsS.P., Oreshko A.P., Cabaret D., Vedrinskii R.V., KraizmanV.L., Novakovich A.A., Krivitskii E.V., TolochkoB.P. Atomic displacement effects in near-edge resonant “forbidden” reflections. Òàì æå, ñ. 46.

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44. Îâ÷èííèêîâà Å.Í., Äìèòðèåíêî Â.Å., Êîë÷èíñêàÿ À.Ì. Ðàñ÷åò

«êîìáèíèðîâàííîãî» âêëàäà â «çàïðåùåííûå» îòðàæåíèÿ â ðåçîíàíñíîé äèôðàêöèè ÑÈ. Òàì æå, ñ. 44.

45. Àíòîøèíà Ë.Ã., Êîçüìèí À.Ñ., Êîêîðåâ À.È., Îïàëåíêî À.À., Ôèðîâ À.È. Èññëåäîâàíèå íàìàãíè÷åííîñòè è ýôôåêòà Ìåññáàóýðà ôåððèòà NiGa_0.6Al_0.6Fe_0.8O₄. Øêîëà-ñåìèíàð Íîâûå ìàãíèòíûå ìàòåðèàëû ìèêðîýëåêòðîíèêè, ôèç-ôàê. ÌÃÓ, ÂÑ-2, ñ. 477-479, (2004).

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Âëèÿíèå ðàçáàâëåíèÿ íà ïîâåäåíèå êîýðöèòèâíîé ñèëû ôåððèòîâ ñèñòåìû NiGa_xAl_xFe_2-2xO₄. Àêòóàëüíûå ïðîáëåìû òâåðäîòåëüíîé ýëåêòðîíèêè. Òðóäû 9 Ìåæäóíàðîäíîé íàó÷íî-òåõíè÷åñêîé êîíôåðåíöèè, Òàãàíðîãñêèé ãîñ. ðàäèîòåõíè÷åñêèé óíèâåðñèòåò, ñ. 181-183, (2004).

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48. Dmitrienko V.E., Ovchinnikova E.N., Ishida K., Kokubun J., Kirfel A., Collins S.P., Laundy D., Oreshko A.P. Atomic displacement effects in resonant ‘forbidden’ reflections. // Òàì æå.

49. Bazhanov D.I., Knizhnik A.A., Safonov A.A., Bagatur’yants A.A., Korkin A.A. First-principles study of the relative stability and electronic properties of zirconium and hafnium nitrides and oxynitrides. 46^th Electronic Materials Conference (EMC) sponsored by the Electronic Materials Committee of TMS, Notre Dame, Indiana (USA), June 23-25 (2004), Oral talk.

50. Dmitrienko V.E., Ovchinnikova E.N., Ishida K., Kokubun J., Kirfel A., Collins S.P., Laundy D., Oreshko A.P., Cabaret D. Phonon effects in resonant “forbidden” reflections. // Abstr. 11th International Conference on Phonon Scattering in Condensed Matter “Phonon-2004”. St.-Petersburg, Russia, 25-30 July 2004.

51. Oreshko A.P. Thermal motion induced resonant “forbidden” reflections in Ge and ZnO. // Abstr. IVth International School on Magnetism and Synchrotron Radiation. Mittelwihr, France, 10-15 October 2004.

52. Àíäðååâ À.Â., Êîðíååâ À.À., Íàçàðîâ Ì.Ì., Ïðóäíèêîâ È.Ð., Øêóðèíîâ À.Ï. Î âîçáóæäåíèè ïîâåðõíîñòíûõ ïëàçìîíîâ ïðè ðàññåÿíèè ñâåòà íà äèôðàêöèîííîé ðåøåòêå â íåêîëëèíåàðíîé ãåîìåòðèè. Ñá. òðóäîâ òðåòüåé ìåæäóíàðîäíîé êîíôåðåíöèè

«Ôóíäàìåíòàëüíûå ïðîáëåìû îïòèêè». Ñàíêò-Ïåòåðáóðã. 18-21 îêòÿáðÿ 2004. Ñ. 242-243.

53. Anishchenko A.A., Avdyukhina V.M., Katsnelson A.A., Revkevich G.P.

Discrete Stochastic Structure Evolution in Pd-Mo and Pd-Ta Alloys after Hydrogenation, 22-nd Europ.Cryst. Meeting, ECM-22, Budapest, 2004, Acta Cryst. (2004) A60, s. 253; s. 12, m 34, p. 1.

Êàôåäðà ôèçèêè ïîëóïðîâîäíèêîâ Ïóáëèêàöèè â æóðíàëàõ

1. Äíåïðîâñêèé Â.Ñ., Æóêîâ Å.À., Øàëûãèíà Î.À., Åâòèõèåâ Â.Ï., Êî÷åðåøêî Â.Ï. Çàõâàò è ðåêîìáèíàöèÿ íîñèòåëåé â ïîëóïðîâîäíèêîâûõ êâàíòîâûõ òî÷êàõ CdSe/ZnSe. ÆÝÒÔ, ò. 125,

¹ 1, ñ. 173-180 (2004).

2. Äíåïðîâñêèé Â.Ñ., Æóêîâ Å.À., Ëÿñêîâñêèé Â.Ë., Ðûæêîâ Ì.Â., Òîëïåéêèí È.Â., Øàòàëèí À.È. Ëþìèíåñöåíöèÿ êâàíòîâûõ íèòåé CdSe / Al₂O₃ ïðè âûñîêèõ óðîâíÿõ ôîòîâîçáóæäåíèÿ. ÔÒÒ, ò. 46,

¹ 9, ñ. 1700-1705 (2004).

3. Rubel O., Baranovskii S.D., Zvyagin I.P., Thomas P., Kasap S.O. Lucky-drift model for avalanche multiplication in amorphous semiconductors.

Phys. stat. sol. (c), v. 1, ¹ 5, p. 1186–1193 (2004).

4. Yarkin D.G., Balagurov L.A., Bayliss S.C., Zvyagin I.P. Charge carrier transport in thermally oxidized metal/PS/p-Si and metal/PS/n-Si structures. Semicond. Sci. Technol, v. 19, p. 100–105 (2004).

5. Zvyagin I.P., Kurova I.A., Ormont N.N. Variable range hopping in hydrogenated amorphous silicon. Phys. stat. sol. (c), v. 1, ¹ 1, ð. 101–

104 (2004).

6. Zvyagin I.P., Borisov K.E. Superlattices with intentional disorder:

impurity-assisted vertical hopping. Phys. stat. sol. (c), v. 1, ¹ 1, p.

105–108 (2004).

7. Lebedev A.I., Sluchinskaya I.A. EXAFS study of the influence of impurities on the phase transitions in GeTe. Ferroelectrics, v. 298, p.

189-197 (2004).

8. Lebedev A.I., Sluchinskaya I.A. A new method for determining parameters of the potential well of-center atoms from EXAFS data.

Crystallography Reports, v. 49, Suppl. 1, p. S153-S157 (2004).

9. Kitaeva G.K., Kuznetsov K.A., Morozova V.A., Naumova I.I., Penin A.N., Shepelev A.V., Viskovatich A.V., Zhigunov D.M. Reduction-induced polarons and optical response of Mg-doped LiNbO₃ crystals.

Appl. Phys. B, v. 78, ð. 759-764 (2004).

10. Êîøåëåâ Î.Ã., Ìîðîçîâà Â.À., Ãðèãîðüåâà Ã.Ì., Çâÿãèíà Ê.Í., Ñïàññêèé À.Â. Äèàãíîñòèêà íåîäíîðîäíîñòè ðàñïðåäåëåíèÿ ðåêîìáèíàöèîííûõ öåíòðîâ â êðåìíèåâûõ ôîòîïðåîáðàçîâàòåëÿõ ïî ñïåêòðàì ôîòîòîêà. Èçâ. ÐÀÍ. Ñåðèÿ ôèçè÷åñêàÿ, ò. 68, ¹. 12, ñ. 1807-1811 (2004).

11. Êîøåëåâ Î.Ã., Ìîðîçîâà Â.À., Ãðèãîðüåâà Ã.Ì., Çâÿãèíà Ê.Í., Ñïàññêèé À.Â. Àíàëèç íåîäíîðîäíûõ ðàñïðåäåëåíèé äåôåêòîâ â êðåìíèåâûõ ôîòîïðåîáðàçîâàòåëÿõ, îáëó÷åííûõ ïðîòîíàìè.

Âåñòíèê ÌÓ. Ñåð. 3. Ôèçèêà. Àñòðîíîìèÿ, ¹ 6, ñ. (2004).

12. Chukichev M.V., Forsh P.A., Fuhs W., Kazanskii A.G. Creation of metastable defects in microcrystalline silicon films by keV-electron irradiation. J. Non-Cryst. Solids, v. 338-340, p. 378-381 (2004).

13. Êàçàíñêèé À.Ã., Õàáàðîâà Ê.Þ. Ðàñïðåäåëåíèå ïëîòíîñòè ýëåêòðîííûõ ñîñòîÿíèé â çàïðåùåííîé çîíå ìèêðîêðèñòàë-ëè÷åñêîãî ãèäðèðîâàííîãî êðåìíèÿ. ÔÒÏ, ò. 38, ¹ 10, ñ. 1261-1264 (2004).

14. Àëèâîâ ß.È., Îäèí È.Í., Êîëîíèóñ Ñ.Ä., ×óêè÷åâ Ì.Â. Âëèÿíèå îòæèãà íà êàòîäîëþìèíåñöåíöèþ ýïèòàêñèàëüíûõ ñëîåâ ZnO:Ga, èìïëàíòèðîâàííûõ àçîòîì. Èçâ. ÐÀÍ. Ñåðèÿ ôèçè÷åñêàÿ, ò. 68, ¹ 9, ñ. 1374-1376 (2004).

15. Alivov Ja.I., Look D.C., Ataev B.M., Chukichev M.B., Mamedov V.V., Zimenko V.I., Agafonov Ju.A., Pustovoit A.N. Fabrication of ZnO-based metal-insulator-semiconductor diode by ion implantation. Solid State Electronics, v. 48, p. 2343-2346 (2004).

16. Îäèí Í.Í., ×óêè÷åâ Ì.Â., Ðóáèíà Ì.Ý. Ëåãèðîâàíèå êðèñòàëëîâ CdS â ïàðàõ êàäìèÿ èíäèåì è òåëëóðîì è ëþìèíåñöåíòíûå ñâîéñòâà êðèñòàëëîâ. Íåîðãàíè÷åñêèå ìàòåðèàëû, ò. 40, ¹ 12, c.

1415-1417 (2004).

17. Îäèí Í.Í., ×óêè÷åâ Ì.Â., Ðóáèíà Ì.Ý. Ëþìèíåñöåíòíûå è ýëåêòðîôèçè÷åñêèå ñâîéñòâà ìåòàñòàáèëüíûõ ÷åòâåðíûõ ñîåäèíåíèé â ñèñòåìàõ Cd,M^III//S,Te (M=In,Ga). Íåîðãàíè÷åñêèå ìàòåðèàëû, ò. 40, ¹ 12, c. 1427-1430 (2004).

18. Ïåòðîâ Â.È., ×óêè÷åâ Ì.Â., Èñàêîâ Ä.Â., Âèëñîí Äæ., Ïîëâàðä Í.

Êàòîäîëþìèíåñöåíòíûé àíàëèç àëìàçíûõ ïëåíîê, âûðàùåííûõ ìåòîäîì õèìè÷åñêîãî îñàæäåíèÿ èç ãàçîâîé ôàçû. Ïîâåðõíîñòü,

¹ 3, ñ. 57-64 (2004).

19. Ïåòðîâ Â.È., ×óêè÷åâ Ì.Â., Èñàêîâ Ä.Â. Êàòîäîëþìèíåñöåíöèÿ àëìàçíûõ ïëåíîê. Ïîâåðõíîñòü, ¹3, ñ. 101-104 (2004).

20. Áåëîãîðîõîâ À.È., Äåíèñîâ È.À., Ñìèðíîâà Í.À., Áåëîãîðîõîâà Ë.È. Èññëåäîâàíèå ñòðóêòóðíîãî ñîâåðøåíñòâà ýïèòàêñèàëüíûõ

ñëîåâ Cd_xHg_1-xTe/CdZnTe ìåòîäîì êîìáèíàöèîííîãî ðàññåÿíèÿ ñâåòà. ÔÒÏ, ò. 38, ¹ 1, ñ. 84-93 (2004).

21. Belogorokhov A.I., Belogorokhova L.I., Miranda R.P., Vasilevskiy M.I., and Gavrilov S.A. Mixed optical phonon modes in semiconductor nanocrystals synthesized in porous Al₂O₃ matrix. Physica Status Solidi (c), v. 1, ¹ 11, ð. 2638-2641 (2004).

Òåçèñû äîêëàäîâ, ïóáëèêàöèè â òðóäàõ êîíôåðåíöèé è â ýëåêòðîííûõ èçäàíèÿõ

1. Ìàðåíêèí Ñ.Ô., Ìîðîçîâà Â.À. Ïàðàìåòðû çîííîé ñòðóêòóðû ìîíîêðèñòàëëîâ CdAs₂, ZnAs₂ è òâåðäûõ ðàñòâîðîâ Cd_1-xZn_xAs₂. Ñòðóêòóðíûå äåôåêòû â CdAs₂ è ZnAs₂. Ñáîðíèê ìàòåðèàëîâ Ìåæäóíàðîäíîé íàó÷íîé êîíôåðåíöèè “Ñîâðåìåííûå ïðîáëåìû îáùåé è íåîðãàíè÷åñêîé õèìèè”. Ìîñêâà, 5-6 îêòÿáðÿ 2004 ã., ñ.

142-149.

2. Morozova V.A., Marenkin S.F., Mikhailov S.G., Koshelev O.G., Varnavsky S.A. Optical and photoelectrical properties of Cd_1-xZn_xAs₂ solid solutions. Book of abstracts of the 2^nd Intern. Conf. on Materials Science and Condenced Matter Physics (MSCMP-2004), Chisinau, Moldova, September 21-25, 2004, p. 32.

3. Êàçàíñêèé À.Ã. Ôîòîïðîâîäèìîñòü ìèêðîêðèñòàëëè÷åñêîãî ãèäðèðîâàííîãî êðåìíèÿ. Ñá. òðóäîâ IV Ìåæäóíàðîäíîé êîí-ôåðåíöèè “Àìîðôíûå è ìèêðîêðèñòàëëè÷åñêèå ïîëóïðîâîäíèêè”.

Ñàíêò-Ïåòåðáóðã, Èçä-âî ÑÏáÃÏÓ 2004, ñ. 20.

4. Êàçàíñêèé À.Ã., Õàáàðîâà Ê.Þ. Èññëåäîâàíèå ïëîòíîñòè ñîñòîÿíèé â àìîðôíîì è ìèêðîêðèñòàëëè÷åñêîì êðåìíèè ñ ïîìîùüþ èçìåðåíèÿ ìîäóëèðîâàííîé ôîòîïðîâîäèìîñòè. Òàì æå, ñ. 77.

5. Wang X.Q., Yin M., He D.Y., Karabutov A.V., Kazanskii A.G. Electron field emission from silicon films deposited by inductively coupled plasma CVD at room temperature. Òàì æå, ñ. 21.

6. Òàìååâ À.Ð., Ôåíóõèí À.È., Âàííèêîâ À.Â., Êàçàíñêèé À.Ã.

Ôîòîâîëüòàè÷åñêèå ñâîéñòâà ãåòåðîïåðåõîäà n-Si – îðãàíè÷åñêèé ïîëóïðîâîäíèê. Òàì æå, ñ. 183.

7. Êóðîâà È.À., Íàëüãèåâà Ì.À., Îðìîíò Í.Í. Ýëåêòðè÷åñêèå è ôîòîýëåêòðè÷åñêèå ñâîéñòâà ïëåíîê a-Si:H, ïîäâåðãíóòûõ âûñîêîòåìïåðàòóðíîìó îòæèãó â âîäîðîäå. Òàì æå, ñ. 61-62.

8. Îðìîíò Í.Í., Êóðîâà È.À., Ïðîêîôüåâ Ã.Â. Ôîòîèíäóöèðîâàííàÿ ðåëàêñàöèÿ ìåòàñòàáèëüíûõ ñîñòîÿíèé â a-Si:H. Òàì æå, ñ. 59-60.

9. Yunovich A.E. Luminescence spectra and efficiency of GaN - based LEDs. 3rd Akasaki Research Center, 2004 Intern. Symp. “To the New Horizon of the Nitride Research”, Nagoya University, Nagoya, Japan;

March 5, 2004; Book of Abstr., p. 43.

10. Yunovich A.E., Obydena S.S. Electroluminescence spectra of GaN -based LEDs. Meijo International Symposium on Nitride semicoductors

2004, March 8, Meijo University, Nagoya, Japan; Book of Abstr., p.

11. Øèðîêîâ Ñ.Ñ., Þíîâè÷ À.Ý. Ôîòîïðèåìíèêè è èçëó÷àòåëè35.

óëüòðàôèîëåòîâîãî äèàïàçîíà íà îñíîâå ãåòåðîñòðóêòóð íèòðèäà ãàëëèÿ è åãî òâåðäûõ ðàñòâîðîâ. XVIII Ìåæä. Íàó÷íî-òåõí. Êîíô.

ïî ôîòîýëåêòðîíèêå è ïðèáîðàì íî÷íîãî âèäåíèÿ, Ìîñêâà, ÍÏÎ

“Îðèîí”, 2004 ã., òåç. äîêëàäîâ, ñ. 27.

12. Þíîâè÷ À.Ý. Ââåäåíèå: Ðàçâèòèå ðàáîò ïî ïîëóïðîâîäíèêîâûì íèòðèäàì â Ðîññèè. III Âñåðîññèéñêàÿ Êîíôåðåíöèÿ “Íèòðèäû ãàëëèÿ, èíäèÿ è àëþìèíèÿ: ñòðóêòóðû è ïðèáîðû”. Ìîñêâà, ÌÃÓ, èþíü 2004, Òåç. äîêë., ñ. 4-5.

13. Êîðîáîâ Å.Â., Øèðîêîâ Ñ.Ñ., Þíîâè÷ À.Ý. Èçìåíåíèå òåìïåðàòóðû è öâåòîâûõ õàðàêòåðèñòèê ñâåòîäèîäîâ áåëîãî ñâå÷åíèÿ ïðè óâåëè÷åíèè òîêà. Òàì æå, ñ. 137-138.

14. Ëóêüÿíîâ Ô.À., Òàòóëèí Â.Â. Ðàñ÷åò êîîðäèíàò öâåòíîñòè è èí-äåêñà öâåòîïåðåäà÷è áåëûõ ñâåòîäèîäîâ. Òàì æå, ñ. 170.

15. ×óêè÷åâ Ì.Â., Ðîäèîíîâ È.Ä., Îñèïîâ À.Ô., Èëüåâñêèé À.Â. Ñâîé-ñòâà òâåðäîãî ðàñòâîðà AlGaN è åãî êàòîäîëþìèíåñöåíöèÿ â ëàçå-ðå ÓÔ äèàïàçîíà. Òàì æå, ñ. 16.

16. Êîëîíèóñ Ñ.Ä., ×óêè÷åâ Ì.Â. Êàòîäîëþìèíåñöåíöèÿ êðèñòàëëîâ îêñèäà öèíêà, èñïîëüçóåìûõ êàê ïîäëîæêè äëÿ ýïèòàêñèàëüíîãî ðîñòà GaN. Òàì æå, ñ. 20.

17. Êàëèíèíà Å.Â., Îíóøêèí Ã.À., ×åðåíêîâ À.Å., Àëèâîâ ß.È., Look D.C., Àòàåâ Á.Ì., Ìàìåäîâ Â.Â., ×óêè÷åâ Ì.Â. Óëüòðàôèîëåòîâûå ZnO/p-AlGaN ñâåòîäèîäû. Òàì æå, ñ. 45.

18. Chukichev M.V., Kolonius S.D., Kortunova E.V., Legutin V.I., Chvansky P.P. The cathodoluminescence properties of zinc oxide crystal and getherostructures on it base. The International Jubilee Conference

“Single Crystals and their application in the XXI century - 2004”, VNIISIMS, Alexandrov, Russia, June 8-11, 2004, c. 335.

19. Belogorokhov A.I., Belogorokhova L.I., Kobeleva S.P., and Gavrilov S.A. Determination of SiO_x layer thickness on a surface of silicon nanocrystals by using X-ray photoelectron spectroscopy. Extended Abstracts of the 4-th Intern. Conf. On Porous Semiconductors – Science and Technology, Cullera-Valencia, Spain, 14-19.03.2004, p. 290-291.

20. Belogorokhov A.I., Gavrilov S.A., Belogorokhova L.I., Kravchenko D.A., Kobeleva S.P. Fabrication, optical properties, confined and coupled lattice vibrational modes of CdS nanocrystals embedded in porous Al₂O₃. Book of abstracts of the 2^nd Intern. Conf. on Materials Science and Condenced Matter Physics (MSCMP-2004), Chisinau, Moldova, September 21-25, 2004, p. 210.

21. Belogorokhov A.I., Belogorokhova L.I., Gavrilov S.A. Dipolar vibrational modes confined in ZnSe nanocrystals embedded in free-standing layers of porous Al₂O₃. Òàì æå, p. 231.

22. Belogorokhov A.I., Belogorokhova L.I., Miranda R.P., Vasilevskiy M.I., Gavrilov S.A. Mixed optical phonon modes in semiconductor nanocrystals synthesized in porous Al₂O₃ matrix. Book of abstracts of

the 11 Intern. Conf. on Phonon scattering in condensed matter, St.

Petersburg, Russia, July 25-30, 2004, p. 92.

23. Áåëîãîðîõîâ À.È., Áåëîãîðîõîâà Ë.È., Âàñèëåâñêèé Ì.È., Ãàâðèëîâ Ñ.À. Ôîíîííûå êîëåáàíèÿ ñìåøàííîãî òèïà â íàíîêðèñòàëëàõ CdS è CdSe, ñèíòåçèðîâàííûõ â ïîðèñòîì Al₂O₃. Òåçèñû äîêëàäà XI íàöèîíàëüíîé êîíôåðåíöèè ïî ðîñòó êðèñòàëëîâ, Ìîñêâà, ÈÊ ÐÀÍ, äåêàáðü 2004, ñ 155.

Êàôåäðà ôèçèêè ïîëèìåðîâ è êðèñòàëëëîâ Ïóáëèêàöèè â æóðíàëàõ

1. Potemkin I.I. Lamellar Orientation in Thin, Supported Diblock Copolymer Films: Strong Segregation Theory. Macromolecules, v. 37, N 9, p. 3505-3509 (2004).

2. Potemkin I.I., Khokhlov A.R., Prokhorova S.A., Sheiko S.S., Beers K.L., Matyjaszewski K. Spontaneous Curvature of Comb-Like Polymers at a Flat Interface. Macromolecules, v. 37, N 10, p. 3918-3923 (2004).

3. Potemkin I.I., Khokhlov A.R. Nematic Ordering in Dilute Solutions of Rodlike Polyelectrolyte. J. Chem. Phys., v. 120, N 22, p. 10848, (2004).

4. Potemkin I.I. Overcharging of complexes formed by oppositely charged, interpenetrable macroions. Europhys. Lett., v. 68, N 4, p. 487 (2004).

5. Êðàìàðåíêî E.Þ., Åðóõèìîâè÷ È.ß., Õîõëîâ À.Ð. Âëèÿíèå îáðà-çîâàíèÿ èîííûõ ïàð è ìóëüòèïëåòîâ íà ñïèíîäàëüíóþ óñòîé÷èâîñòü ñîëåâîãî ïîëèýëåêòðîëèòíîãî ðàñòâîðà. Âûñîêîìîë. Ñîåäèí., Ñåðèÿ À, ò. 46, ¹ 9, ñ. 1570 (2004).

6. Áëàãîäàòñêèõ È.Â., Âàñèëüåâà Î.Â., Ïðÿõèíà Ò.À., ×óðî÷êèíà Í.À., Ñìèðíîâ Â.À., Ôèëèïïîâà Î.Å., Õîõëîâ À.Ð. Íîâûå ïîäõîäû ê àíàëèçó ìîëåêóëÿðíîé íåîäíîðîäíîñòè àññîöèèðóþùèõ ñîïîëèìåðîâ àêðèëàìèäà. Âûñîêîìîëåê. ñîåä., Ñåðèÿ Á, ò. 46, ¹ 1, ñ. 125-135 (2004).

7. Blagodatskikh I.V., Vasilieva O.V., Ivanova E.N., Bykov S.V., Churochkina N.A., Priakhina T.A., Smirnov V.A., Philippova O.E., Khokhlov A.R. New approach to the molecular characterization of hydrophobically modified polyacrylamide. Polymer, v. 45, p. 5897-5904 (2004).

8. Âîëêîâ Å.Â., Ôèëèïïîâà Î.Å., Õîõëîâ À.Ð. Ñìåøàííîå ïîëè-ýëåêòðîëèòíî-èîíîìåðíîå ïîâåäåíèå ïîëèàêðèëîâîé êèñëîòû â ìåòàíîëå. 1. Áåññîëåâûå ðàñòâîðû. Êîëëîèä. Æóðí., ò. 66, ¹ 6, ñ.

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9. Âîëêîâ Å.Â., Ôèëèïïîâà Î.Å., Õîõëîâ À.Ð. Ñìåøàííîå ïîëè-ýëåêòðîëèòíî-èîíîìåðíîå ïîâåäåíèå ïîëèàêðèëîâîé êèñëîòû â ìåòàíîëå. 2. Ñîëåâûå ðàñòâîðû. Êîëëîèä. Æóðí., ò. 66, ¹ 6, ñ. 746-749 (2004).

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