Пpедметный указатель тома 32 за 2006 год

Пpедметный указатель составлен в соответствии с классификационной схемой PACS (Physics and Astronomy Classification Scheme), pазpаботанной в Амеpиканском институте фізики.

Saved in:

Bibliographic Details
Date:	2006
Format:	Article
Language:	Russian
Published:	Фізико-технічний інститут низьких температур ім. Б.І. Вєркіна НАН України 2006
Series:	Физика низких температур
Subjects:	Предметный указатель
Online Access:	https://nasplib.isofts.kiev.ua/handle/123456789/120898
Tags:	Add Tag No Tags, Be the first to tag this record!
Journal Title:	Digital Library of Periodicals of National Academy of Sciences of Ukraine
Cite this:	Пpедметный указатель тома 32 за 2006 год // Физика низких температур. — 2006. — Т. 32, № 12. — С. 1597-1614. — рос.

Institution

Digital Library of Periodicals of National Academy of Sciences of Ukraine

id	nasplib_isofts_kiev_ua-123456789-120898
record_format	dspace
spelling	nasplib_isofts_kiev_ua-123456789-1208982025-02-09T23:22:13Z Пpедметный указатель тома 32 за 2006 год Предметный указатель Пpедметный указатель составлен в соответствии с классификационной схемой PACS (Physics and Astronomy Classification Scheme), pазpаботанной в Амеpиканском институте фізики. 2006 Article Пpедметный указатель тома 32 за 2006 год // Физика низких температур. — 2006. — Т. 32, № 12. — С. 1597-1614. — рос. 0132-6414 https://nasplib.isofts.kiev.ua/handle/123456789/120898 ru Физика низких температур application/pdf Фізико-технічний інститут низьких температур ім. Б.І. Вєркіна НАН України
institution	Digital Library of Periodicals of National Academy of Sciences of Ukraine
collection	DSpace DC
language	Russian
topic	Предметный указатель Предметный указатель
spellingShingle	Предметный указатель Предметный указатель Пpедметный указатель тома 32 за 2006 год Физика низких температур
description	Пpедметный указатель составлен в соответствии с классификационной схемой PACS (Physics and Astronomy Classification Scheme), pазpаботанной в Амеpиканском институте фізики.
format	Article
title	Пpедметный указатель тома 32 за 2006 год
title_short	Пpедметный указатель тома 32 за 2006 год
title_full	Пpедметный указатель тома 32 за 2006 год
title_fullStr	Пpедметный указатель тома 32 за 2006 год
title_full_unstemmed	Пpедметный указатель тома 32 за 2006 год
title_sort	пpедметный указатель тома 32 за 2006 год
publisher	Фізико-технічний інститут низьких температур ім. Б.І. Вєркіна НАН України
publishDate	2006
topic_facet	Предметный указатель
url	https://nasplib.isofts.kiev.ua/handle/123456789/120898
citation_txt	Пpедметный указатель тома 32 за 2006 год // Физика низких температур. — 2006. — Т. 32, № 12. — С. 1597-1614. — рос.
series	Физика низких температур
first_indexed	2025-12-01T16:38:51Z
last_indexed	2025-12-01T16:38:51Z
_version_	1850324699351875584
fulltext	Ïpåäìåòíûé óêàçàòåëü òîìà 32 çà 2006 ãîä Ïpåäìåòíûé óêàçàòåëü ñîñòàâëåí â ñîîòâåòñòâèè ñ êëàññèôèêàöèîííîé ñõåìîé PACS (Physics and Astronomy Classification Scheme), pàçpàáîòàííîé â Àìåpèêàíñêîì èíñòèòóòå ôèçèêè 01. Èíôîðìàöèÿ, îáðàçîâàíèå, èñòî- ðèÿ è ôèëîñîôèÿ 01.60.+q Áèîãðàôè÷åñêèå, èñòîðè÷åñêèå ìàòåðèàëû è ïåðñîíàëèè Ê 75-ëåòèþ ñî äíÿ ðîæäåíèÿ Þðèÿ Ôåäîðî- âè÷à Êîìíèêà . . . . . . . . . . . . . . . 1 129 Àëåêñåé Ïîëèêàðïîâè÷ Êîðîëþê (ê 80-ëåòèþ ñî äíÿ ðîæäåíèÿ) . . . . . . . . . . . . . 2 248 Ïàìÿòè Àðíîëüäà Ìàðêîâè÷à Êîñåâè÷à (1928–2006) . . . . . . . . . . . . . . . 3 372 Ê 75-ëåòèþ ñî äíÿ ðîæäåíèÿ Ñåðãåÿ Âëàäè- ìèðîâè÷à Ïåëåòìèíñêîãî . . . . . . . . . . 7 927 Áîðèñ Ãåîðãèåâè÷ Ëàçàðåâ. Ê 100-ëåòèþ ñî äíÿ ðîæäåíèÿ . . . . . . . . . . . . . . . 8/9 931 Ê 75-ëåòèþ Âàëåíòèíà Ãðèãîðüåâè÷à Ïåñ÷àí- ñêîãî. . . . . . . . . . . . . . . . . . . 8/9 1165 Ê 90-ëåòèþ ñî äíÿ ðîæäåíèÿ Âèòàëèÿ Ëàçà- ðåâè÷à Ãèíçáóðãà . . . . . . . . . . . . . 10 1286 Ê 70-ëåòèþ ñî äíÿ ðîæäåíèÿ Âèòàëèÿ Ìè- õàéëîâè÷à Äìèòðèåâà . . . . . . . . . . . 10 1287 Antonina Fedorovna Prikhot’ko (To the cente- nary of her birthday) (1906–1995) . . . . . . 11 1295 02. Ìàòåìàòè÷åñêèå ìåòîäû â ôèçèêå 02.30.–f Òåîðèÿ ôóíêöèé, àíàëèç 02.30.Hq Îáûêíîâåííûå äèôôåðåíöèàëüíûå óðàâíåíèÿ Îá ýôôåêòå ñòàáèëèçàöèè ïîëîæåíèÿ ìàã- íèòíîãî ðåçîíàíñà ñîãëàñîâàííûì ïîëåì. Èâàí- ÷åíêî Å.À., Òîëñòîëóæñêèé À.Ï. . . . . . . 1 103 02.50.–r Òåîðèÿ âåðîÿòíîñòåé, ñòîõàñòè- ÷åñêèå ïðîöåññû è ñòàòèñòèêà 02.50.Ey Ñòîõàñòè÷åñêèå ïðîöåññû Ñòîõàñòè÷åñêèé ðåçîíàíñ â ñâåðõïðîâîäÿùèõ êîíòóðàõ ñ êîíòàêòàìè Äæîçåôñîíà. ×èñëåííûé ýêñïåðèìåíò. Ãëóõîâ À.Ì., Òóðóòàíîâ Î.Ã., Øíûðêîâ Â.È., Îìåëüÿí÷óê À.Í.. . . . . . 12 1477 02.60.–x ×èñëåííàÿ àïïðîêñèìàöèÿ è àíàëèç 02.60.Cb ×èñëåííîå ìîäåëèðîâàíèå; ðåøåíèå óðàâíåíèé Ñòîõàñòè÷åñêèé ðåçîíàíñ â ñâåðõïðîâîäÿùèõ êîíòóðàõ ñ êîíòàêòàìè Äæîçåôñîíà. ×èñëåííûé ýêñïåðèìåíò. Ãëóõîâ À.Ì., Òóðóòàíîâ Î.Ã., Øíûðêîâ Â.È., Îìåëüÿí÷óê À.Í.. . . . . . 12 1477 03. Êâàíòîâàÿ ìåõàíèêà, òåîðèÿ ïîëÿ è ñïåöèàëüíàÿ òåîðèÿ îòíîñèòåëüíîñòè 03.65.–w Êâàíòîâàÿ ìåõàíèêà Rabi oscillations in systems with small an- harmonicity. Amin M.H.S. . . . . . . . . . 3 269 03.65.Ge Påøåíèÿ âîëíîâûõ ópàâíåíèé: ñâÿ- çàííûå ñîñòîÿíèÿ Îñîáåííîñòè îòðàæåíèÿ îáúåìíîé ýëåêòðî- ìàãíèòíîé ÒÌ-âîëíû îò ïëàñòèíû íåãèðîòðîï- íîãî ñåãíåòîìàãíåòèêà. Ñàâ÷åíêî À.Ñ., Òàðà- ñåíêî Ñ.Â., Òàðàñåíêî Ò.Í., Ïðèìàê Ê.Í. . . 1 83 03.67.–à Êâàíòîâàÿ èíôîðìàöèÿ 03.67.Lx Êâàíòîâûå ðàñ÷åòû Rabi oscillations in systems with small an- harmonicity. Amin M.H.S. . . . . . . . . . 3 269 Resonant effects in the strongly driven pha- se-biased Cooper-pair box. Shevchenko S.N. and Omelyanchouk A.N. . . . . . . . . . . . . 10 1282 03.75.–b Âîëíû âåùåñòâà 03.75.Lm Òóííåëèðîâàíèå, ýôôåêò Äæîçåôñî- íà, áîçå-ýéíøòåéíîâñêàÿ êîíäåíñàöèÿ â ïåðèî- äè÷åñêîì ïîòåíöèàëå, ñîëèòîíû, âèõðè è òîïîëîãè÷åñêèå âîçáóæäåíèÿ Resonant effects in the strongly driven phase- biased Cooper-pair box. Shevchenko S.N. and Omelyanchouk A.N. . . . . . . . . . . . . 10 1282 05. Ñòàòèñòè÷åñêàÿ ôèçèêà è òåðìîäè- íàìèêà 05.45.–a Íåëèíåéíàÿ äèíàìèêà è íåëè- íåéíûå äèíàìè÷åñêèå ñèñòåìû 05.45.Tp Àíàëèç ñ ïîìîùüþ âðåìåííûõ ðÿäîâ Ñòîõàñòè÷åñêèé ðåçîíàíñ â ñâåðõïðîâîäÿùèõ êîíòóðàõ ñ êîíòàêòàìè Äæîçåôñîíà. ×èñëåí- íûé ýêñïåðèìåíò. Ãëóõîâ À.Ì., Òóðóòàíîâ Î.Ã., Øíûðêîâ Â.È., Îìåëüÿí÷óê À.Í. . . . 12 1477 05.70.–à Òåðìîäèíàìèêà 05.70.Fh Ôàçîâûå ïåðåõîäû: îáùèå âîïðîñû Ñòàòè÷åñêîå êðèòè÷åñêîå ïîâåäåíèå 3D-ôðó- ñòðèðîâàííîé ìîäåëè Ãåéçåíáåðãà íà ñëîèñòîé òðåóãîëüíîé ðåøåòêå. Ìóðòàçàåâ À.Ê., Êàìè- ëîâ È.Ê., Ðàìàçàíîâ Ì.Ê. . . . . . . . . . 3 323 05.70.Jk ßâëåíèÿ â êðèòè÷åñêîé òî÷êå Magnetic field induced finite size effect in type-II superconductors. Schneider T. . . . . 4/5 521 Ôèçèêà íèçêèõ òåìïåðàòóð, 2006, ò. 32, ¹ 12 1597 07. Ïðèáîðû, àïïàðàòóðà, îáîðóäîâà- íèå è òåõíèêà îáùåãî ïîëüçîâàíèÿ â ôèçèêå è àñòpîíîìèè 07.57.–ñ Ïðèáîðû, îáîðóäîâàíèå è òåõ- íèêà â îáëàñòè èíôðàêðàñíûõ, ñóáìèëëè- ìåòðîâûõ, ìèêðî- è ðàäèîâîëí Microwave properties of HTS films: measure- ments in millimeter wave range. Cherpak N.T., Barannik A.A., Prokopenko Yu.V., Filipov Yu.F., and Vitusevich S.A. . . . . . . . . . . . . 6 795 21. Ñòðóêòóðà ÿäðà 21.30.–x ßäåðíûå ñèëû 21.30.Fe Ñèëû â àäðîííûõ ñèñòåìàõ è ýôôåê- òèâíîå âçàèìîäåéñòâèå Density, spin and isospin correlations in low- density two-component Fermi superfluid. Isayev A.A. and Yang J. . . . . . . . . . . . . . 10 1195 21.65.+f ßäåðíàÿ ìàòåðèÿ Density, spin and isospin correlations in low- density two-component Fermi superfluid. Isayev A.A. and Yang J. . . . . . . . . . . . . . 10 1195 31. Ýëåêòðîííàÿ ñòðóêòóðà àòîìîâ, ìîëåêóë è èõ èîíîâ: òåîðèÿ 31.15.–p Âû÷èñëåíèÿ è ìàòåìàòè÷åñêèå ìåòîäû â àòîìíîé è ìîëåêóëÿðíîé ôèçèêå (êðîìå ýëåêòðîí-êîððåëÿöèîííûõ âû÷èñ- ëåíèé) 31.15.Ar Ðàñ÷åòû èç ïåðâûõ ïðèíöèïîâ Comparative study of structure and photo-in- duced reactivity of malonaldehyde and acetyl- acetone isolated in nitrogen matrices. Trivella A., Coussan S., Chiavassa T., Theul� P., Manca C., and Roubin P. . . . . . . . . . . . . . 11 1372 31.25.–v Ðàñ÷åòû ýëåêòðîííûõ êîððåëÿ- öèé äëÿ àòîìîâ è ìîëåêóë 31.25.Eb Ýëåêòðîííûå êîððåëÿöèè äëÿ àòîìîâ è èîíîâ: îñíîâíîå ñîñòîÿíèå The distribution of field-induced charges in C60 fullerite. Êuprievich V.À., Kapitanchuk O.L., Shramko Î.V., and Kudritska Z.G.. . . 1 125 31.50.+w Âîçáóæäåííûå ñîñòîÿíèÿ Photoluminescence of ortho-bromobenzophe- none. Avdeenko A.A., Pyshkin O.S., Eremenko V.V., Strzhemechny M.A., Buravtseva L.M., and Romashkin R.V. . . . . . . . . . . . . 11 1355 31.70.–f Âëÿíèå âçàèìîäåéñòâèÿ àòîìîâ è ìîëåêóë íà ýëåêòðîííóþ ñòðóêòóðó 31.70.Ks Ìîëåêóëÿðíûå òâåðäûå òåëà Infrared study of high-pressure molecular pha- ses of carbon dioxide. Giordano Valentina M., Gorelli Federico A., and Bini Roberto. . . . . 11 1402 32. Ñâîéñòâà àòîìîâ è âçàèìîäåéñòâèå ñ ôîòîíàìè 32.30.–r Àòîìíûå ñïåêòðû Spectroscopy of atomic and molecular defects in solid 4He using optical, microwave, rf, mag- netic and electric fields (Review Article). Mo- roshkin P., Hofer A., Ulzega S., and Weis A. . 11 1297 32.60.+i Ýôôåêòû Çååìàíà è Øòàðêà Spectroscopy of atomic and molecular defects in solid 4He using optical, microwave, rf, mag- netic and electric fields (Review Article). Mo- roshkin P., Hofer A., Ulzega S., and Weis A. . 11 1297 33. Ìîëåêóëÿðíûå ñâîéñòâà è âçàè- ìîäåéñòâèÿ ñ ôîòîíàìè 33.15.–e Câîéñòâà ìîëåêóë è ìîëåêóëÿð- íûõ èîíîâ 33.15.Hp Âûñîòû áàðüåðîâ (âíóòðåííåå âðà- ùåíèå, èíâåðñèÿ, âðàùàòåëüíàÿ èçîìåðèÿ, êîíôîðìàöèîííàÿ äèíàìèêà) The physics of rotational tunneling: hole burning spectroscopy of methyl groups. Somoza Mark and Friedrich Josef . . . . . . . . . . 11 1345 33.35.+r Ýëåêòðîííûé ðåçîíàíñ è ðåëàê- ñàöèÿ Îá ýôôåêòå ñòàáèëèçàöèè ïîëîæåíèÿ ìàã- íèòíîãî ðåçîíàíñà ñîãëàñîâàííûì ïîëåì. Èâàí- ÷åíêî Å.À., Òîëñòîëóæñêèé À.Ï. . . . . . . 1 103 Spectroscopy of atomic and molecular defects in solid 4He using optical, microwave, rf, mag- netic and electric fields (Review Article). Mo- roshkin P., Hofer A., Ulzega S., and Weis A. . 11 1297 33.50.–j Ôëþîðåñöåíöèÿ è ôîñôîðåñöåí- öèÿ; áåçûçëó÷àòåëüíûå ïåðåõîäû, òóøå- íèå Spectroscopy of atomic and molecular defects in solid 4He using optical, microwave, rf, mag- netic and electric fields (Review Article). Mo- roshkin P., Hofer A., Ulzega S., and Weis A. . 11 1297 33.50.Dq Ñïåêòðû ôëþîðåñöåíöèè è ôîñôî- ðåñöåíöèè Ionic chromophores Xep � (p � 4) in multishell rare-gas clusters Xem(NF3)kNe7500 (m, k � 100) studied with fluorescence spectroscopy, Kanaev A., Museur L., Laarmann T., and M�ller T. . . 11 1426 36. Èçó÷åíèå ñïåöèàëüíûõ àòîìîâ, ìîëåêóë è èõ èîíîâ; êëàñòåðû 36.20.–r Ìàêðîìîëåêóëû è ïîëèìåðíûå ìîëåêóëû 36.20.Ng Êîëåáàòåëüíàÿ è âðàùàòåëüíàÿ ñòðóê- òóðà, èíôðàêðàñíûå è ðàìàíîâñêèå ñïåêòðû Comparative study of structure and photo-in- duced reactivity of malonaldehyde and acetyl- acetone isolated in nitrogen matrices. Trivel- la A., Coussan S., Chiavassa T., Theul� P., Man- ca C., and Roubin P. . . . . . . . . . . . . 11 1372 1598 Ôèçèêà íèçêèõ òåìïåðàòóð, 2006, ò. 32, ¹ 12 Ïpåäìåòíûé óêàçàòåëü òîìà 32 çà 2006 ãîä 36.40.–c Àòîìíûå è ìîëåêóëÿðíûå êëàñ- òåðû Âëèÿíèå ðàçìåðíîãî ýôôåêòà â ñïåêòðå ýíåð- ãèè ýêñèòîíîâ êëàñòåðîâ èíåðòíûõ ýëåìåíòîâ íà ðåëàêñàöèþ ýêñèòîíîâ. Âåðõîâöåâà Ý.Ò., Áîíäàðåíêî Å.À., Äîðîíèí Þ.Ñ., Ðàòíåð À.Ì. 10 1246 Ionic chromophores Xep � (p � 4) in multishell rare-gas clusters Xem(NF3)k Ne7500 (m, k � 100) studied with fluorescence spectroscopy, Kanaev A., Museur L., Laarmann T., and M�ller T. . . 11 1426 Desorption of water cluster ions from the surface of solid rare gases. Tachibana T., Miura T., and Arakawa I. . . . . . . . . . . . . . 11 1434 36.40.Jn Ðåàêòèâíîñòü êëàñòåðîâ The polymerization of acetylene on supported metal clusters. Gilb S., Arenz M., and Heiz U. 11 1441 36.40.Qv Ñòàáèëüíîñòü è ôðàãìåíòàöèÿ êëàñ- òåðîâ Âëèÿíèå ðàçìåðíîãî ýôôåêòà â ñïåêòðå ýíåð- ãèè ýêñèòîíîâ êëàñòåðîâ èíåðòíûõ ýëåìåíòîâ íà ðåëàêñàöèþ ýêñèòîíîâ. Âåðõîâöåâà Ý.Ò., Áîíäà- ðåíêî Å.À., Äîðîíèí Þ.Ñ., Ðàòíåð À.Ì.. . . 10 1246 36.40.Vz Îïòè÷åñêèå ñâîéñòâà êëàñòåðîâ Âëèÿíèå ðàçìåðíîãî ýôôåêòà â ñïåêòðå ýíåð- ãèè ýêñèòîíîâ êëàñòåðîâ èíåðòíûõ ýëåìåíòîâ íà ðåëàêñàöèþ ýêñèòîíîâ. Âåðõîâöåâà Ý.Ò., Áîíäà- ðåíêî Å.À., Äîðîíèí Þ.Ñ., Ðàòíåð À.Ì.. . . 10 1246 Ionic chromophores Xep � (p � 4) in multishell rare-gas clusters Xem(NF3)k Ne7500 (m, k � 100) studied with fluorescence spectroscopy, Kanaev A., Museur L., Laarmann T., and M�ller T. . . 11 1426 41. Ýëåêòðîìàãíåòèçì; ýëåêòðîííàÿ è èîííàÿ îïòèêà 41.20.–q Ïðèêëàäíîé êëàññè÷åñêèé ýëåê- òðîìàãíåòèçì Îñîáåííîñòè îòðàæåíèÿ îáúåìíîé ýëåêòðî- ìàãíèòíîé ÒÌ-âîëíû îò ïëàñòèíû íåãèðîòðîï- íîãî ñåãíåòîìàãíåòèêà. Ñàâ÷åíêî À.Ñ., Òàðà- ñåíêî Ñ.Â., Òàðàñåíêî Ò.Í., Ïðèìàê Ê.Í. . . 1 83 42. Îïòèêà 42.50.–p Êâàíòîâàÿ îïòèêà 42.50.Ct Êâàíòîâîå îïèñàíèå âçàèìîäåéñòâèå ñâíòà ñ âåùåñòâîì, ñìåæíûå ýêñïåðèìåíòû The physics of rotational tunneling: hole burn- ing spectroscopy of methyl groups. Somoza Mark and Friedrich Josef. . . . . . . . . . . . . 11 1345 42.62.–b Ïðèìåíåíèå ëàçåðîâ 42.62.Fi Ëàçåðíàÿ ñïåêòðîñêîïèÿ The physics of rotational tunneling: hole burn- ing spectroscopy of methyl groups. Somoza Mark and Friedrich Josef. . . . . . . . . . . . . 11 1345 43. Àêóñòèêà 43.25.+y Íåëèíåéíàÿ àêóñòèêà Äèíàìè÷åñêèå ìîäóëè óïðóãîñòè íèîáèÿ ïðè íèçêèõ òåìïåðàòóðàõ: òåìïåðàòóðíûå çàâèñèìî- ñòè â íîðìàëüíîì ñîñòîÿíèè, âëèÿíèå ñâåðõ- ïðîâîäÿùåãî ïåðåõîäà, äèñëîêàöèîííûå ýô- ôåêòû. Ïàëü-Âàëü Ï.Ï., Íàöèê Â.Ä., Ïàëü- Âàëü Ë.Í. . . . . . . . . . . . . . . . . 2 227 43.35.+d Óëüòðàçâóê, êâàíòîâàÿ àêóñòèêà è ôèçè÷åñêèå ýôôåêòû çâóêà Ýêñïåðèìåíòàëüíîå îáíàðóæåíèå ýëåêòðîìàã- íèòíûõ ïó÷êîâûõ âîëí. Áóðìà Í.Ã., Ïåòðèøèí À.È., Ðÿáóõà Í.À., Ôèëü Â.Ä. . . . . . . . 12 1507 47. Äèíàìèêà æèäêîñòåé 47.27.–i Òóðáóëåíòíîå òå÷åíèå, êîíâåê- öèÿ è òåïëîïåðåíîñ 47.27.Gs Èçîòðîïíàÿ òóðáóëåíòíîñòü, îäíî- ðîäíàÿ òóðáóëåíòíîñòü Nonlinear and shock waves in superfluid He II. Kolmakov G.V., Efimov V.B., Ganshin A.N., McClintock P.V.E., Lebedeva E.V., and Mezhov-Deglin L.P. . . . . . . . . . . . . 11 1320 47.27.Eq Èìèòàöèÿ òóðáóëåíòíîñòè è ìîäåëè- ðîâàíèå Îá óñòîé÷èâîñòè çàðÿæåííîé ïîâåðõíîñòè æèäêîãî äèýëåêòðèêà. Êóøíèð Ë., Øèêèí Â. 8/9 1155 47.35.+i Ãèäðîäèíàìè÷åñêèå âîëíû Nonlinear and shock waves in superfluid He II. Kolmakov G.V., Efimov V.B., Ganshin A.N., McClintock P.V.E., Lebedeva E.V., and Mezhov-Deglin L.P. . . . . . . . . . . . . 11 1320 47.37.+q Ãèäðîäèíàìè÷åñêèå àñïåêòû ñâåðõòåêó÷åñòè Âûíóæäåííîå ðàññåÿíèå âòîðîãî çâóêà â ñâåðõòåêó÷åé æèäêîñòè, îáóñëîâëåííîå ïîãëîùå- íèåì. Ïóøêèíà Í.È.. . . . . . . . . . . . 12 1467 61. Ñòðóêòóðà òâåðäûõ òåë è æèäêîñ- òåé; êðèñòàëëîãðàôèÿ 61.12.–q Äèôpàêöèÿ è pàññåÿíèå íåéòpîíîâ Î ìàãíèòíîì êîëëàïñå â ñèëüíî ñæàòîì òâåð- äîì êèñëîðîäå. Êàëèòà Â.Ì., Ëîêòåâ Â.Ì. . 3 317 61.20.–p Ñòðóêòóðà æèäêîñòåé 61.20.Ja Êîìïüþòåpíîå ìîäåëèpîâàíèå ñòpóêòópû æèäêîñòè Èññëåäîâàíèå ïîäâèæíîñòè ìàëûõ êëàñòåðîâ ìåäè íà áóôåðíîì ñëîå Õå ïðè òåìïåðàòóðàõ 30–70 Ê. Ìàð÷åíêî È.Ã., Íåêëþäîâ È.Ì. . . 10 1262 61.46.+w Êëàñòåðû, íàíî÷àñòèöû è íà- íîêðèñòàëëè÷åñêèå ìàòåðèàëû Carbon «peapods» — a new tunable nanoscale graphitic structure (Review Article). Krive I.V., Shekhter R.I., and Jonson M. . . . . . . . . 10 1171 Ôèçèêà íèçêèõ òåìïåðàòóð, 2006, ò. 32, ¹ 12 1599 Ïpåäìåòíûé óêàçàòåëü òîìà 32 çà 2006 ãîä Ýëåêòðîíîãðàôèÿ äâóõêîìïîíåíòíûõ êëàñòå- ðîâ Ar—Kr: îñîáåííîñòè íóêëåàöèè, ìåõàíèç- ìîâ ðîñòà è ñòðóêòóðíûõ ñîñòîÿíèé. Äàíèëü- ÷åíêî À.Ã., Êîâàëåíêî Ñ.È., Ñàìîâàðîâ Â.Í. 12 1551 61.48.+c Ôóëëåðåíû è ôóëëåðåíîïîäîá- íûå ñòðóêòóðû Carbon «peapods» — a new tunable nanoscale graphitic structure (Review Article). Krive I.V., Shekhter R.I., and Jonson M. . . . . . . . . 10 1171 61.72.–y Äåôåêòû è ïðèìåñè â êðèñòàë- ëàõ; ìèêðîñòðóêòóðà 61.72.Hh Êîñâåííûå äîêàçàòåëüñòâà äèñëîêàöèé è äpóãèõ äåôåêòîâ (ñîïpîòèâëåíèå, ñêîëüæåíèå, ïîëçó÷åñòü, äåôîpìàöèè, âíóòpåííåå òpåíèå, ÝÏÐ, ßÌÐ è ò.ä.) Äèíàìè÷åñêèå ìîäóëè óïðóãîñòè íèîáèÿ ïðè íèçêèõ òåìïåðàòóðàõ: òåìïåðàòóðíûå çàâèñè- ìîñòè â íîðìàëüíîì ñîñòîÿíèè, âëèÿíèå ñâåðõ- ïðîâîäÿùåãî ïåðåõîäà, äèñëîêàöèîííûå ýô- ôåêòû. Ïàëü-Âàëü Ï.Ï., Íàöèê Â.Ä., Ïàëü- Âàëü Ë.Í. . . . . . . . . . . . . . . . . 2 227 62. Ìåõàíè÷åñêèå è àêóñòè÷åñêèå ñâîéñò- âà êîíäåíñèðîâàííîé ñðåäû 62.20.–x Ìåõàíè÷åñêèå ñâîéñòâà òâåðäûõ òåë 62.20.Fe Äåôîðìèðîâàíèå è ïëàñòè÷íîñòü (âêëþ÷àÿ òåêó÷åñòü, êîâêîñòü è ñâåðõïëàñòè÷- íîñòü) Âëèÿíèå ñâåðõïðîâîäÿùåãî ïåðåõîäà íà ìàê- ðîñêîïè÷åñêèå õàðàêòåðèñòèêè ïëàñòè÷íîñòè ìåòàëëîâ è ñïëàâîâ: ôóíäàìåíòàëüíûå è ïðè- êëàäíûå àñïåêòû (Îáçîð). Ïóñòîâàëîâ Â.Â., Ôîìåíêî Â.Ñ. . . . . . . . . . . . . . . 1 3 Âëèÿíèå ïëàñòè÷åñêîé äåôîðìàöèè íà òåì- ïåðàòóðíóþ çàâèñèìîñòü òåðìîýäñ â ìåäè. Ñâåòëîâ Â.Í., Ñòåïàíîâ Â.Á. . . . . . . . . 7 919 62.20.Hg Ïîëçó÷åñòü Êâàíòîâàÿ ïîëçó÷åñòü �-Sn â íîðìàëüíîì è ñâåðõïðîâîäÿùåì ñîñòîÿíèÿõ. Âëèÿíèå NS ïå- ðåõîäà íà äåôîðìàöèîííîå óïðî÷íåíèå, Íàöèê Â.Ä., Ñîëäàòîâ Â.Ï., Êèðè÷åíêî Ã.È., Èâàí- ÷åíêî Ë.Ã. . . . . . . . . . . . . . . . . 12 1566 62.50.+p Ýôôåêòû âûñîêîãî äàâëåíèÿ è óäàðíîé âîëíû â òâåðäûõ òåëàõ è æèäêî- ñòÿõ Comparison of pressure, magnetic field and excess manganese effects on transport properties of film and bulk ceramic La–Ca manganites. Mi- khaylov V.I., Dyakonov V.P., Zubov E.E., Pa- shchenko A.V., Varyukhin V.N., Shtaba V.A., Szewczyk A., Abal’oshev A., Piotrowski K., Dya- konov K., Lewandowski S.J., and Szymczak Í. 2 190 Î ìàãíèòíîì êîëëàïñå â ñèëüíî ñæàòîì òâåðäîì êèñëîðîäå. Êàëèòà Â.Ì., Ëîêòåâ Â.Ì. 3 317 Êèíåòè÷åñêèå ñâîéñòâà è ìàãíèòíàÿ âîñïðè- èì÷èâîñòü La0,825Sr0,175MnO3 ïîä ãèäðîñòàòè- ÷åñêèì äàâëåíèåì. Èöêåâè÷ Å.Ñ., Êðàéäåíîâ Â.Ô., Êóçüìèí Ñ.Ì. . . . . . . . . . . . 10 1222 63. Äèíàìèêà ðåøåòêè 63.20.–e Ôîíîíû â êðèñòàëëè÷åñêèõ ðå- øåòêàõ Ëîêàëüíûå êîëåáàíèÿ â êðèñòàëëè÷åñêèõ ðå- øåòêàõ ñ îäíîñâÿçíîé îáëàñòüþ êâàçèíåïðå- ðûâíîãî ôîíîííîãî ñïåêòðà. Êîòëÿð À.Â., Ôåîäîñüåâ Ñ.Á. . . . . . . . . . . . . . . 3 343 Àíèçîòðîïèÿ òåìïåðàòóðíûõ çàâèñèìîñòåé ïàðàìåòðîâ ðåøåòêè EuBa2Cu3O7–� â êâàçèãàð- ìîíè÷åñêîì ïðåäåëå. Åðåìåíêî Â.Â., Ãîñïîäà- ðåâ È.À., Èáóëàåâ Â.Â., Ñèðåíêî Â.À., Ôåî- äîñüåâ Ñ.Á., Øâåäóí Ì.Þ. . . . . . . . . 12 1560 63.20.Kr Ôîíîí-ýëåêòpîííûå è ôîíîí-ôîíîí- íûå âçàèìîäåéñòâèÿ Low-temperature mixed spin state of Co3+ in LaCoO3 evidenced from Jahn—Teller lattice dis- tortions. Gnezdilov V., Choi K.Y., Pashkevich Yu., Lemmens P., Shiryaev S., Bychkov G., Ba- rilo S., Fomin V., and Yeremenko A.V. . . . 2 219 Nonadiabatic breakdown and pairing in high-Tc compounds. Pietronero L. and Cappelluti E. . 4/5 455 Investigation of the superconducting energy gap in the compound LuNi2B2C by the method of point contact spectroscopy: two-gap approxi- mation. Bobrov N.L., Beloborod’ko S.I., Tyut- rina L.V., Chernobay V.N., Yanson I.Ê., Naugle D.G., and Rathnayaka K.D. . . . . . . . . 4/5 641 63.20.Ls Âçàèìîäåéñòâèå ôîíîíîâ ñ äðóãèìè êâàçè÷àñòèöàìè Âðàùåíèå ìåòèëüíûõ ãðóïï è òåïëîïðîâîä- íîñòü ìîëåêóëÿðíûõ êðèñòàëëîâ: ýòàí. Êîí- ñòàíòèíîâ Â.À., Ðåâÿêèí Â.Ï., Ñàãàí Â.Â. . . 7 905 Fourier transform infrared studies of the N2–O2 binary system. Minenko M. and Jodl H.-J. . . . 11 1382 Extraordinary temperature dependence of iso- choric thermal conductivity of crystalline CO2 doped with inert gases. Konstantinov V.A., Man- zhelii V.G., Revyakin V.P., and Sagan V.V. . . 11 1414 63.22.+m Ôîíîíû â íèçêîðàçìåðíûõ ñòðóêòóðàõ è ìàëûõ ÷àñòèöàõ Êîëåáàòåëüíûé ñïåêòð íåóïîðÿäî÷åííîé ëè- íåéíîé öåïî÷êè ñ ëåãêèìè èçîòîïè÷åñêèìè ïðèìåñÿìè. Îáëàñòü èñõîäíîé çîíû. Èâàíîâ Ì.À., Ìîëîäèä Â.Ñ., Ñêðèïíèê Þ.Â.. . . . 7 887 63.50.+x Êîëåáàòåëüíûå ñîñòîÿíèÿ â íå- óïîðÿäî÷åííûõ ñèñòåìàõ Çàòóõàíèå óëüòðàçâóêà â öåïî÷å÷íîì êðè- ñòàëëå ñ ðåçîíàíñíî-ðàññåèâàþùèìè äåôåêòà- ìè. ×óëêèí Å.Ï. . . . . . . . . . . . . . 3 360 1600 Ôèçèêà íèçêèõ òåìïåðàòóð, 2006, ò. 32, ¹ 12 Ïpåäìåòíûé óêàçàòåëü òîìà 32 çà 2006 ãîä 64. Óðàâíåíèÿ ñîñòîÿíèÿ, ôàçîâûå ðàâíîâåñèÿ è ôàçîâûå ïåðåõîäû 64.60.–i Îáùèå èññëåäîâàíèÿ ôàçîâûõ ïåðåõîäîâ 64.60.Cn Ïåðåõîäû ïîðÿäîê—áåñïîðÿäîê; ñòàòèñòè÷åñêàÿ ìåõàíèêà ìîäåëüíûõ ñèñòåì Ñòàòè÷åñêîå êðèòè÷åñêîå ïîâåäåíèå 3D-ôðó- ñòðèðîâàííîé ìîäåëè Ãåéçåíáåðãà íà ñëîèñòîé òðåóãîëüíîé ðåøåòêå. Ìóðòàçàåâ À.Ê., Êàìè- ëîâ È.Ê., Ðàìàçàíîâ Ì.Ê. . . . . . . . . . 3 323 Êðèòè÷åñêèå ñâîéñòâà ìàëûõ ìàãíèòíûõ ÷àñ- òèö YFeO3. Ìóðòàçàåâ À.Ê., Êàìèëîâ È.Ê., Èáàåâ Æ.Ã. . . . . . . . . . . . . . . . . 10 1227 Lattice distortion of quantum cryocrystals un- der pressure. Tretyak S.M., Antsygina T.N., and Freiman Yu.A. . . . . . . . . . . . . . . 11 1409 64.70.–p Êîíêðåòíûå ôàçîâûå ïåðåõîäû 64.70.Ja Ïåðåõîäû æèäêîñòü—æèäêîñòü Î íèçêîòåìïåðàòóðíûõ ïîëèàìîðôíûõ ïðå- âðàùåíèÿõ. Áàêàé À.Ñ. . . . . . . . . . . 8/9 1143 64.70.Kb Ïåðåõîäû òâåðäîå òåëî—òâåðäîå òåëî Ïåðåõîä ìåòàëë—äèýëåêòðèê, ìàãíèòîñîïðî- òèâëåíèå è ìàãíèòíûå ñâîéñòâà ñóëüôèäîâ 3d-ýëåìåíòîâ (Îáçîð). Àáðàìîâà Ã.Ì., Ïåòðà- êîâñêèé Ã.À. . . . . . . . . . . . . . . . 8/9 954 Ãåòåðîôàçíûå ôëóêòóàöèè â òâåðäîì ãåëèè âáëèçè ëèíèè ôàçîâîãî ïðåâðàùåíèÿ ÃÏÓ–ÎÖÊ è êðèâîé ïëàâëåíèÿ. Êàðàñåâñêèé À.È. . . . 10 1203 Fourier transform infrared studies of the N2–O2 binary system. Minenko M. and Jodl H.-J. . . . 11 1382 64.70.Pf Ïåpåõîäû ñòåêëîâàíèÿ Î íèçêîòåìïåðàòóðíûõ ïîëèàìîðôíûõ ïðå- âðàùåíèÿõ. Áàêàé À.Ñ. . . . . . . . . . . 8/9 1143 64.70.Rh Ñîðàçìåðíûå—íåñîðàçìåðíûå ïåðå- õîäû Ãåòåðîôàçíûå ôëóêòóàöèè â òâåðäîì ãåëèè âáëèçè ëèíèè ôàçîâîãî ïðåâðàùåíèÿ ÃÏÓ–ÎÖÊ è êðèâîé ïëàâëåíèÿ. Êàðàñåâñêèé À.È. . . . 10 1203 64.75.+g Ðàñòâîðèìîñòü, ðàññëîåíèå, ñìåøèâàíèå; ôàçîâîå ðàçäåëåíèå Fourier transform infrared studies of the N2–O2 binary system. Minenko M. and Jodl H.-J. . . . 11 1382 66. ßâëåíèÿ ïåðåíîñà â êîíäåíñèðî- âàííîé ñðåäå (íåýëåêòðîííûå) 66.70.+f Íåýëåêòðîííàÿ òåïëîïðîâîä- íîñòü è ðàñïðîñòðàíåíèå òåïëîâîãî èì- ïóëüñà â òâåðäûõ òåëàõ; òåïëîâûå âîëíû Âðàùåíèå ìåòèëüíûõ ãðóïï è òåïëîïðîâîä- íîñòü ìîëåêóëÿðíûõ êðèñòàëëîâ: ýòàí. Êîí- ñòàíòèíîâ Â.À., Ðåâÿêèí Â.Ï., Ñàãàí Â.Â. . . 7 905 Extraordinary temperature dependence of iso- choric thermal conductivity of crystalline CO2 do- ped with inert gases. Konstantinov V.A., Man- zhelii V.G., Revyakin V.P., and Sagan V.V. . 11 1414 67. Êâàíòîâûå æèäêîñòè è òâåðäûå òåëà; æèäêèé è òâåðäûé ãåëèé 67.40.–w Áîçå-âûðîæäåíèå è ñâåðõòåêó- ÷åñòü 4He 67.40.Bz Ôåíîìåíîëîãèÿ è äâóõæèäêîñòíàÿ ìîäåëè Normal transmission of phonons with anoma- lous dispersion through the interface of two con- tinuous media. Adamenko I.N., Nemchenko K.E., and Tanatarov I.V.. . . . . . . . . . . . . 3 255 67.40.Db Êâàíòîâàÿ ñòàòèñòè÷åñêàÿ òåîðèÿ; îñíîâíîå ñîñòîÿíèå, ýëåìåíòàðíûå âîçáóæäå- íèÿ Èññëåäîâàíèå ñòðóêòóðû ñîñòàâíîãî êîíäåí- ñàòà äëÿ He-II ïðè T = 0. Òîì÷åíêî Ìàêñèì . 1 53 Normal transmission of phonons with anoma- lous dispersion through the interface of two con- tinuous media. Adamenko I.N., Nemchenko K.E., and Tanatarov I.V.. . . . . . . . . . . . . 3 255 67.40.Jg Èîíû â æèäêîì 4Íå Îäíîìåðíûå è êâàçèîäíîìåðíûå ýëåêòðîí- íûå ñèñòåìû â íàíîêàíàëàõ. Çóåâà Ò.È., Êîâä- ðÿ Þ.Ç., Ñîêîëîâ Ñ.Ñ. . . . . . . . . . . 1 115 Î âîçìîæíîì ïðîñòðàíñòâåííîì óïîðÿäî÷å- íèè ÷àñòèö â ýëåêòðîííûõ öåïî÷êàõ íàä æèä- êèì ãåëèåì. Íèêîëàåíêî Â.À., Êîâäðÿ Þ.Ç., Ìóõàðñêèé Þ. . . . . . . . . . . . . . . 7 811 67.40.Pm Òðàíñïîðòíûå ïðîöåññû, âòîðîé è äðóãèå çâóêè, òåïëîîòäà÷à, ñîïðîòèâëåíèå Êà- ïèöû Normal transmission of phonons with anoma- lous dispersion through the interface of two con- tinuous media. Adamenko I.N., Nemchenko K.E., and Tanatarov I.V.. . . . . . . . . . . . . 3 255 Îá óñòîé÷èâîñòè çàðÿæåííîé ïîâåðõíîñòè æèäêîãî äèýëåêòðèêà. Êóøíèð Ë., Øèêèí Â. 8/9 1155 67.60.–g Ñìåøàííûå ñèñòåìû; æèäêèå ñìåñè 3He, 4He Óðàâíåíèÿ ãèäðîäèíàìèêè è êîëëåêòèâíûå ìîäû â ñèñòåìå ïîðèñòàÿ ñðåäà—ñâåðõòåêó÷èé ðàñòâîð 3He–4He. Êåêóòèÿ Ø.Å, ×õàèäçå Í.Ä. 7 816 67.80.–s Òâåðäûé ãåëèé è àíàëîãè÷íûå êâàíòîâûå êðèñòàëëû Ãåòåðîôàçíûå ôëóêòóàöèè â òâåðäîì ãåëèè âáëèçè ëèíèè ôàçîâîãî ïðåâðàùåíèÿ ÃÏÓ–ÎÖÊ è êðèâîé ïëàâëåíèÿ. Êàðàñåâñêèé À.È. . . . . 10 1203 Spectroscopy of atomic and molecular defects in solid 4He using optical, microwave, rf, mag- netic and electric fields (Review Article). Mo- roshkin P., Hofer A., Ulzega S., and Weis A. . 11 1297 Lattice distortion of quantum cryocrystals un- der pressure. Tretyak S.M., Antsygina T.N., and Freiman Yu.A. . . . . . . . . . . . . . . 11 1409 Ôèçèêà íèçêèõ òåìïåðàòóð, 2006, ò. 32, ¹ 12 1601 Ïpåäìåòíûé óêàçàòåëü òîìà 32 çà 2006 ãîä Êèíåòèêà ÎÖÊ–ÃÏÓ ïåðåõîäà â 4Íå âíå êðè- âîé ïëàâëåíèÿ. Áèð÷åíêî À.Ï., Âåõîâ Å.Î., Ìèõèí Í.Ï., Ïîëåâ À.Â., Ðóäàâñêèé Ý.ß. . . 12 1471 67.80.Gb Òåïëîâûå ñâîéñòâà Êèíåòèêà ÎÖÊ–ÃÏÓ ïåðåõîäà â 4Íå âíå êðèâîé ïëàâëåíèÿ. Áèð÷åíêî À.Ï., Âåõîâ Å.Î., Ìèõèí Í.Ï., Ïîëåâ À.Â., Ðóäàâñêèé Ý.ß . . 12 1471 67.90.+z Äðóãèå âîïðîñû â îáëàñòè êâàí- òîâûõ æèäêîñòåé è òâåðäûõ òåë; æèäêèé è òâåðäûé ãåëèé Âëèÿíèå ñâåðõòåêó÷åãî ïåðåõîäà íà àäñîðá- öèþ òîíêèõ ãåëèåâûõ ïëeíîê. Ñèâîêîíü Â.Å. 1 65 Lattice distortion of quantum cryocrystals un- der pressure. Tretyak S.M., Antsygina T.N., and Freiman Yu.A. . . . . . . . . . . . . . . 11 1409 Êâàíòîâàÿ ïîëçó÷åñòü �-Sn â íîðìàëüíîì è ñâåðõïðîâîäÿùåì ñîñòîÿíèÿõ. Âëèÿíèå NS ïå- ðåõîäà íà äåôîðìàöèîííîå óïðî÷íåíèå, Íàöèê Â.Ä., Ñîëäàòîâ Â.Ï., Êèðè÷åíêî Ã.È., Èâàí- ÷åíêî Ë.Ã. . . . . . . . . . . . . . . . . 12 1566 68. Ïîâåðõíîñòè è ãðàíèöû ðàçäåëà; òîíêèå ïëåíêè è âèñêåðû (ñòðóêòóðà è íåýëåêòðîííûå ñâîéñòâà) 68.03.–g Ãðàíèöû ðàçäåëà ôàç ãàç—æèä- êîñòü è âàêóóì—æèäêîñòü 68.03.Kn Äèíàìèêà (êàïèëëÿðíûå âîëíû) Nonlinear and shock waves in superfluid He II. Kolmakov G.V., Efimov V.B., Ganshin A.N., McClintock P.V.E., Lebedeva E.V., and Mezhov-Deglin L.P. . . . . . . . . . . . . 11 1320 68.35.–p Ïîâåðõíîñòè òâåðäûõ òåë è ãðà- íèöû ðàçäåëà òâåðäîå òåëî—òâåðäîå òåëî 68.35.Bs Ñòðóêòóðà ÷èñòûõ ïîâåðõíîñòåé (ðå- êîíñòðóêöèÿ) Èññëåäîâàíèå ïîäâèæíîñòè ìàëûõ êëàñòå- ðîâ ìåäè íà áóôåðíîì ñëîå Õå ïðè òåìïåðàòó- ðàõ 30–70 Ê. Ìàð÷åíêî È.Ã., Íåêëþäîâ È.Ì. 10 1262 68.37.–d Ìèêðîñêîïèÿ ïîâåðõíîñòåé, ìåæôàçíûõ ãðàíèö è òîíêèõ ïëåíîê Laser scanning microscopy of HTS films and devices (Review Article). Zhuravel A.P., Siva- kov A.G., Turutanov O.G., Omelyanchouk A.N., Anlage Steven M., Lukashenko A., Ustinov A.V., and Abraimov D. . . . . . . . . . . . . . 6 775 68.55.–a Ñòðóêòóðà è ìîðôîëîãèÿ òîíêèõ ïëåíîê Èññëåäîâàíèå ïîäâèæíîñòè ìàëûõ êëàñòå- ðîâ ìåäè íà áóôåðíîì ñëîå Õå ïðè òåìïåðàòó- ðàõ 30–70 Ê. Ìàð÷åíêî È.Ã., Íåêëþäîâ È.Ì. 10 1262 71. Ýëåêòðîííàÿ ñòðóêòóðà 71.10.–w Òåîðèè è ìîäåëè ìíîãîýëåê- òðîííûõ ñèñòåì The distribution of field-induced charges in C60 fullerite. Êuprievich V.À., Kapitanchuk O.L., Shramko Î.V., and Kudritska Z.G. . . . . . 1 125 Dynamic properties of inhomogeneous states in cuprates (Review Article). Lorenzana J. and Seibold G. . . . . . . . . . . . . . . . . 4/5 430 Optical-conductivity sum rule in cuprates and unconventional charge density waves: a short re- view. Benfatto L. and Sharapov S.G. . . . . . 6 700 71.10.Ay Òåîðèÿ ôåðìè-æèäêîñòè è äðóãèå ôåíîìåíîëîãè÷åñêèå ìîäåëè Gauge theory of pairing and spin fluctuations near the quantum critical point and superhigh-tem- perature superconductivity. Schrieffer J.R. . . . 4/5 479 Density, spin and isospin correlations in low- density two-component Fermi superfluid. Isayev A.A. and Yang J. . . . . . . . . . . . . . 10 1195 71.10.Ca Ýëåêòðîííûé ãàç, ôåðìè-ãàç Applying BCS-BEC crossover theory to high- temperature superconductors and ultracold ato- mic Fermi gases (Review Article). Chen Q., Stajic J., and Levin K. . . . . . . . . . . . 4/5 538 71.10.Fd Ìîäåëè ðåøåòî÷íûõ ôåðìèîíîâ (ìî- äåëü Õàááàðäà è ò.ä.) Stripe phases: possible ground state of the high-Tc superconductors. Raczkowski M., Ole� A.M., and Fr�sard R.. . . . . . . . . . . . 4/5 411 Spin dynamics in cuprate perovskites. Sher- man A.V. and Schreiber M. . . . . . . . . . 4/5 499 Pseudogap: introducing the length scale into dynamical mean-field theory. Kuchinskii E.Z., Nekrasov I.A., and Sadovskii M.V.. . . . . . 4/5 528 Pseudogap and high-temperature superconduc- tivity from weak to strong coupling. Towards quantitative theory (Review Article). Tremblay A., Kyung B., and S�n�chal D. . . . . . . . 4/5 561 71.10.Hf Îñíîâíûå ñîñòîÿíèÿ íåôåðìèåâñêîé æèäêîñòè, ýëåêòðîííûå ôàçîâûå äèàãðàììû è ôàçîâûå ïåðåõîäû â ìîäåëüíûõ ñèñòåìàõ Pseudogap: introducing the length scale into dynamical mean-field theory. Kuchinskii E.Z., Nekrasov I.A., and Sadovskii M.V.. . . . . . 4/5 528 Pseudogap and high-temperature superconduc- tivity from weak to strong coupling. Towards quantitative theory (Review Article). Tremblay A., Kyung B., and S�n�chal D. . . . . . . . 4/5 561 71.10.Pm Ôåðìèîíû â ïðèâåäåííûõ ðàçìåðàõ (àíèîíû, êîìïîçèòíûå ôåðìèîíû, æèäêîñòè Ëþòòèíãåðà è ò.ä.) Gauge theory of pairing and spin fluctuations near the quantum critical point and superhigh-tem- perature superconductivity. Schrieffer J.R. . . . 4/5 479 1602 Ôèçèêà íèçêèõ òåìïåðàòóð, 2006, ò. 32, ¹ 12 Ïpåäìåòíûé óêàçàòåëü òîìà 32 çà 2006 ãîä Nonequilibrium plasmons and transport pro- perties of a double-junction quantum wire. Kim Jaeuk U., Choi Mahn-Soo, Krive Ilya V., and Kinaret Jari M. . . . . . . . . . . . . . . 12 1522 71.18.+y Ïîâåðõíîñòü Ôåðìè; ðàñ÷åòû è èçìåðåíèÿ, ýôôåêòèâíàÿ ìàññà, g-ôàêòîð Incoherent interlayer electron hopping as a possible reason for enhanced magnetic quantum oscillations in the mixed state of a layered organic superconductor. Gvozdikov V.M. and Wosnitza J. . . . . . . . . . . . . . . . . 2 152 ARPES on high-temperature superconductors: simplicity vs complexity. Kordyuk A.A. and Bo- risenko S.V.. . . . . . . . . . . . . . . . 4/5 401 Òåðìîìàãíèòíûå ÿâëåíèÿ â ñëîèñòûõ ïðîâîä- íèêàõ. Êèðè÷åíêî Î.Â., Ïåñ÷àíñêèé Â.Ã., Õà- ñàí Ð.À. . . . . . . . . . . . . . . . . . 12 1516 71.20.–b Ïëîòíîñòü ýëåêòðîííûõ ñîñòîÿ- íèé è çîííàÿ ñòðóêòóðà êðèñòàëëè÷åñêèõ òâåðäûõ òåë Ýëåêòðîííàÿ ñòðóêòóðà è ìàãíèòíûå ñâîéñòâà ñïëàâîâ RNi5–xCux (R = Y, La, Ce). Ãðå÷íåâ Ã.Å., Ëîãîøà À.Â., Ñâå÷êàðåâ È.Â., Êó÷èí À.Ã., Êóëèêîâ Þ.À., Korzhavyi P.A., Eriksson O. . . 12 1498 71.20.Eh Ðåäêîçåìåëüíûå ìåòàëëû è ñïëàâû Ýëåêòðîííàÿ ñòðóêòóðà è ìàãíèòíûå ñâîéñò- âà ñïëàâîâ RNi5–xCux (R = Y, La, Ce). Ãðå÷íåâ Ã.Å., Ëîãîøà À.Â., Ñâå÷êàðåâ È.Â., Êó÷èí À.Ã., Êóëèêîâ Þ.À., Korzhavyi P.A., Eriksson O. . . 12 1498 71.20.Tx Ôóëëåðåíû è ñìåæíûå ìàòåðèàëû; èíòåðêàëèðîâàííûå ñîåäèíåíèÿ Ýëåêòðîííàÿ ñòðóêòóðà óãëåðîäíûõ zigzag- íàíîòðóáîê. Òèùåíêî Ñ.Â. . . . . . . . . . 10 1256 On the possible reason for superconductivity strengthening in multiwall carbon nanotubes. Gaididei Yu.B. and Loktev V.M. . . . . . . 11 1458 71.23.–k Ýëåêòðîííàÿ ñòðóêòóðà íåóïî- ðÿäî÷åííûõ òâåðäûõ òåë On the possible reason for superconductivity strengthening in multiwall carbon nanotubes. Gaididei Yu.B. and Loktev V.M. . . . . . . 11 1458 71.27.+a Ýëåêòðîííûå ñèñòåìû ñ ñèëüíîé êîððåëÿöèåé, òÿæåëûå ôåðìèîíû Stripe phases: possible ground state of the high-Tc superconductors. Raczkowski M., Ole� A.M., and Fr�sard R.. . . . . . . . . . . . 4/5 411 Dynamic properties of inhomogeneous states in cuprates (Review Article). Lorenzana J. and Seibold G. . . . . . . . . . . . . . . . . 4/5 430 Pseudogap: introducing the length scale into dynamical mean-field theory. Kuchinskii E.Z., Nekrasov I.A., and Sadovskii M.V.. . . . . . 4/5 528 Pseudogap and high-temperature superconduc- tivity from weak to strong coupling. Towards quantitative theory (Review Article). Tremblay A., Kyung B., and S�n�chal D. . . . . . . . 4/5 561 Ðåäêîçåìåëüíûå ôåððîáîðàòû RFe3(BO3)4 (Îáçîð). Âàñèëüåâ À.Í., Ïîïîâà Å.À. . . . . 8/9 968 Ïñåâäîùåëåâûå ýôôåêòû â ñèëüíî êîððåëèðî- âàííûõ ýëåêòðîííûõ ñèñòåìàõ. Áîÿðñêèé Ë.À. 8/9 1078 71.30.+h Ïåðåõîäû ìåòàëë—èçîëÿòîð è äðóãèå ýëåêòðîííûå ïåðåõîäû Magnetic and transport properties of charge ordered La0.5Ca0.5MnO3 and La0.4Ca0.6MnO3 films. Prokhorov V.G., Komashko V.A., Kamin- sky G.G., Lee Y.P., Park S.Y., Hyun Y.H., Svetchnikov V.L., Kim K.W., and Rhee J.Y. . 2 176 Pseudogap: introducing the length scale into dynamical mean-field theory. Kuchinskii E.Z., Nekrasov I.A., and Sadovskii M.V.. . . . . . 4/5 528 Pseudogap and high-temperature superconduc- tivity from weak to strong coupling. Towards quantitative theory (Review Article). Tremblay A., Kyung B., and S�n�chal D. . . . . . . . 4/5 561 Magnetic and electronic phase separation driven by structural clustering in La0.7(Ca1–ySry)0.3MnO3 thin films. Prokhorov V.G., Komashko V.A., Ka- minsky G.G., Lee Y.P., Hyun Y.H., Yu K.K., Park J.S., and Svetchnikov V.L. . . . . . . . 7 853 Ðåäêîçåìåëüíûå ôåððîáîðàòû RFe3(BO3)4 (Îáçîð). Âàñèëüåâ À.Í., Ïîïîâà Å.À. . . . . 8/9 968 71.35.–y Ýêñèòîíû è ñâÿçàííûå ñ íèìè ÿâëåíèÿ 71.35.Cc Ñîáñòâåííûå ñâîéñòâà ýêñèòîíîâ, îïòè÷åñêèå ñïåêòðû ïîãëîùåíèÿ Ýëåêòðîííûé ñïåêòð ïîãëîùåíèÿ òâåðäûõ ðàñ- òâîðîâ ñèñòåìû RbI—AgI—CsI. Þíàêîâà Î.Í., Ìèëîñëàâñêèé Â.Ê., Êîâàëåíêî Å.Í. . . . . 10 1267 71.45.–d Êîëëåêòèâíûå ýôôåêòû 71.45.Gm Îáìåí, êîððåëÿöèè, äèýëåêòðè÷å- ñêèå è ìàãíèòíûå õàðàêòåðèñòèêè, ïëàçìîíû Ê òåîðèè ìàãíèòîïëàçìåííûõ âîëí â êâàíòî- âûõ ïðîâîëîêàõ. Åðìîëàåâ À.Ì., Ðàøáà Ã.È. 3 329 Dynamic properties of inhomogeneous states in cuprates (Review Article). Lorenzana J. and Sei- bold G. . . . . . . . . . . . . . . . . . . 4/5 430 71.70.–d Ðàñùåïëåíèå óðîâíåé è âçàèìî- äåéñòâèå Ðåäêîçåìåëüíûå ôåððîáîðàòû RFe3(BO3)4 (Îáçîð). Âàñèëüåâ À.Í., Ïîïîâà Å.À. . . . . 8/9 968 71.70.Ch Ïîëÿ ëèãàíäîâ è êðèñòàëëîâ Ìàãíèòíûå ñâîéñòâà ñèíãëåòíîãî àíòèôåððî- ìàãíåòèêà KTb(WO4)2. Ëîãèíîâ À.À., Õàöüêî Å.Í., ×åðíûé À.Ñ., Áàóìåð Â.Í., Ðûêîâà À.È., Êàëèíèí Ï.Ñ., Ñóëüïèñ À. . . . . . . . . . 1 91 71.70.Di Óðîâíè Ëàíäàó Î âîçìîæíîñòè íàáëþäåíèÿ â ãðàôåíå îáû÷- íîãî êâàíòîâîãî ýôôåêòà Õîëëà. Ãàéäèäåé Þ.Á., Ëîêòåâ Â.Ì. . . . . . . . . . . . . 7 923 Ôèçèêà íèçêèõ òåìïåðàòóð, 2006, ò. 32, ¹ 12 1603 Ïpåäìåòíûé óêàçàòåëü òîìà 32 çà 2006 ãîä Giant parametric amplification of the non- linear response in a single crystal of beryllium in a quantizing magnetic field. Tsindlekht M.I., Logoboy N., Egorov V.S., Kramer R.B.G., Jan- sen A.G.M., and Joss W. . . . . . . . . . . 8/9 1129 71.70.Ej Ñïèí-îðáèòàëüíîå âçàèìîäåéñòâèå, ðàñùåïëåíèå Çååìàíà è Øòàðêà, ýôôåêò ßíà—Òåëëåðà Low temperature mixed spin state of Co3+ in LaCoO3 evidenced from Jahn-Teller lattice dis- tortions. Gnezdilov V., Choi K.Y., Pashkevich Yu., Lemmens P., Shiryaev S., Bychkov G., Ba- rilo S., Fomin V., and Yeremenko A.V. . . . 2 219 72. Ïåðåíîñ ýëåêòðîíîâ â êîíäåíñèðî- âàííîé ñðåäå 72.10.–d Òåîðèÿ ýëåêòðîííîãî ïåðåíîñà; ìåõàíèçìû ðàññåÿíèÿ 72.10.Di Ðàññåÿíèå íà ôîíîíàõ, ìàãíîíàõ è äðóãèõ äåëîêàëèçîâàííûõ âîçáóæäåíèÿõ Comparison of pressure, magnetic field and excess manganese effects on transport properties of film and bulk ceramic La—Ca manganites. Mikhaylov V.I., Dyakonov V.P., Zubov E.E., Pashchenko A.V., Varyukhin V.N., Shtaba V.A., Szewczyk A., Abal’oshev A., Piotrowski K., Dyakonov K., Lewandowski S.J., and Szym- czak Í. . . . . . . . . . . . . . . . . . . 2 190 Investigation of the superconducting energy gap in the compound LuNi2B2C by the method of point contact spectroscopy: two-gap approxi- mation. Bobrov N.L., Beloborod’ko S.I., Tyut- rina L.V., Chernobay V.N., Yanson I.Ê., Naugle D.G., and Rathnayaka K.D.. . . . . . . . . 4/5 641 72.15.–v Ýëåêòðîííàÿ ïðîâîäèìîñòü â ìåòàëëàõ è ñïëàâàõ Âëèÿíèå ïëàñòè÷åñêîé äåôîðìàöèè íà òåì- ïåðàòóðíóþ çàâèñèìîñòü òåðìîýäñ â ìåäè. Ñâåòëîâ Â.Í., Ñòåïàíîâ Â.Á. . . . . . . . . 7 919 Tåîðèÿ îñòàòî÷íîãî ýëåêòðîñîïðîòèâëåíèÿ ðàçáàâëåííûõ ñïëàâîâ íåìàãíèòíûõ 3d–5d ïå- ðåõîäíûõ ìåòàëëîâ. Öèîâêèí Þ.Þ., Âîëî- øèíñêèé À.Í., Ãàïîíöåâ Â.Â., Óñòèíîâ Â.Â. . 8/9 1136 72.15.Eb Ýëåêòðîïðîâîäíîñòü è òåïëîïðîâîä- íîñòü ìåòàëëîâ è ñïëàâîâ Âëèÿíèå ïëàñòè÷åñêîé äåôîðìàöèè íà òåì- ïåðàòóðíóþ çàâèñèìîñòü òåðìîýäñ â ìåäè. Ñâåòëîâ Â.Í., Ñòåïàíîâ Â.Á. . . . . . . . . 7 919 Îáíàðóæåíèå àíîìàëüíîãî ïèêà ýëåêòðîñî- ïðîòèâëåíèÿ ìîíîêðèñòàëëà UFe4Al8 â îáëàñòè òåìïåðàòóð 160–100 Ê è îòðèöàòåëüíîãî ìàã- íèòîñîïðîòèâëåíèÿ â ïîëÿõ äî 400 Ý. Äìèòðè- åâ Â.Ì., Òåðåõîâ À.Â., Ñóñêè Â. . . . . . . 10 1241 72.15.Gd Ãàëüâàíîìàãíèòíûå è äðóãèå ìàãíè- òîòðàíñïîðòíûå ýôôåêòû Îñîáåííîñòè îñöèëëÿöèé Øóáíèêîâà—äå Ãàà- çà ïðîâîäèìîñòè âûñîêîïîäâèæíîãî äâóìåðíîãî äûðî÷íîãî ãàçà â êâàíòîâîé ÿìå SiGe/Ge/SiGe. Êîìíèê Þ.Ô., Áåðêóòîâ È.Á., Àíäðèåâñêèé Â.Â., Ìèðîíîâ Î.À., Ìèðîíîâ Ì., Ëåäëè Ä. 1 109 Incoherent interlayer electron hopping as a possible reason for enhanced magnetic quantum oscillations in the mixed state of a layered or- ganic superconductor. Gvozdikov V.M. and Wosnitza J. . . . . . . . . . . . . . . . . 2 152 Comparison of pressure, magnetic field and excess manganese effects on transport properties of film and bulk ceramic La–Ca manganites. Mi- khaylov V.I., Dyakonov V.P., Zubov E.E., Pa- shchenko A.V., Varyukhin V.N., Shtaba V.A., Szewczyk A., Abal’oshev A., Piotrowski K., Dya- konov K., Lewandowski S.J., and Szymczak Í. 2 190 Âëèÿíèå êèñëîðîäíîé íåñòåõèîìåòðèè íà êðèñòàëëè÷åñêóþ ñòðóêòóðó è ìàãíèòíûå ñâîé- ñòâà êàòèîí-äåôèöèòíûõ ìàíãàíèòîâ Pr0,9MnOx (2,85 < x < 2,90). Ìàíòûöêàÿ Î.Ñ., Êîëåñîâà È.Ì., Òðîÿí÷óê È.Î., Øèì÷àê Ã., Ñèðåíêî Â.À., Åðåìåíêî Â.Â.. . . . . . . . . . . . . . . 7 872 Recent observation of anomalous supercon- ducting behavior of ultrathin YBCO films and single crystals of cluster borides. Gasparov V.A. 8/9 1105 72.15.Jf Òåpìîýëåêòpè÷åñêèå è òåpìîìàãíèò- íûå ýôôåêòû Òåðìîìàãíèòíûå ÿâëåíèÿ â ñëîèñòûõ ïðîâîä- íèêàõ. Êèðè÷åíêî Î.Â., Ïåñ÷àíñêèé Â.Ã., Õàñàí Ð.À. . . . . . . . . . . . . . . . . . . . 12 1516 72.20.–i ßâëåíèÿ ïðîâîäèìîñòè â ïîëó- ïðîâîäíèêàõ è äèýëåêòðèêàõ Ïðèáëèæåíèå ñàìîñîãëàñîâàííîãî ïîëÿ â òåî- ðèè ïðûæêîâîãî ïåðåíîñà â íåóïîðÿäî÷åííûõ ñèñòåìàõ. Ôàòååâ Ì.Ï. . . . . . . . . . . 7 879 72.20.Dp Îáùàÿ òåîðèÿ, ìåõàíèçìû ðàññåÿíèÿ Ïðèáëèæåíèå ñàìîñîãëàñîâàííîãî ïîëÿ â òåî- ðèè ïðûæêîâîãî ïåðåíîñà â íåóïîðÿäî÷åííûõ ñèñòåìàõ. Ôàòååâ Ì.Ï. . . . . . . . . . . 7 879 72.20.Fr Òðàíñïîðò è ïîäâèæíîñòü â ñëàáûõ ïîëÿõ, ïüåçîñîïðîòèâëåíèå Ïðèáëèæåíèå ñàìîñîãëàñîâàííîãî ïîëÿ â òåî- ðèè ïðûæêîâîãî ïåðåíîñà â íåóïîðÿäî÷åííûõ ñèñòåìàõ. Ôàòååâ Ì.Ï. . . . . . . . . . . 7 879 72.20.Jv Íîñèòåëè çàðÿäà: ãåíåðàöèÿ, ðåêîì- áèíàöèÿ, âðåìÿ æèçíè è çàõâàò Oxygen driven relaxation processes in preir- radiated Ar cryocrystals. Savchenko E.V., Belov A.G., Gumenchuk G.B., Ponomaryov A.N., and Bondybey V.E. . . . . . . . . . . . . . . 11 1417 72.20.My Ãàëüâàíîìàãíèòíûå è äðóãèå ìàãíè- òîòðàíñïîðòíûå ýôôåêòû Ýôôåêòû ñëàáîé ëîêàëèçàöèè è âçàèìîäåé- ñòâèÿ íîñèòåëåé çàðÿäà â äâóìåðíîì äûðî÷íîì ãàçå â ãåðìàíèåâîé êâàíòîâîé ÿìå â ãåòåðî- ñòðóêòóðå SiGe/Ge/SiGe. Áåðêóòîâ È.Á., Êîì- íèê Þ.Ô., Àíäðèåâñêèé Â.Â., Mironov O.A., Myronov M., Leadley D.R. . . . . . . . . . 7 896 1604 Ôèçèêà íèçêèõ òåìïåðàòóð, 2006, ò. 32, ¹ 12 Ïpåäìåòíûé óêàçàòåëü òîìà 32 çà 2006 ãîä 72.55.+s Ìàãíèòîàêóñòè÷åñêèå ýôôåêòû Ìàãíèòîóïðóãàÿ ãåíåðàöèÿ ýëåêòðîìàãíèò- íûõ ïîëåé çâóêîâîé âîëíîé â ñëàáûõ ôåððî- ìàãíåòèêàõ. Êîëåñíè÷åíêî Þ.À., Ñòåïàíåíêî Ä.È. . . . . . . . . . . . . . . . . . . . 3 301 72.60.+g Ñìåøàííàÿ ïðîâîäèìîñòü è ñìå- íà ìåõàíèçìîâ ïðîâîäèìîñòè Comparison of pressure, magnetic field and ex- cess manganese effects on transport properties of film and bulk ceramic La–Ca manganites. Mi- khaylov V.I., Dyakonov V.P., Zubov E.E., Pashchenko A.V., Varyukhin V.N., Shtaba V.A., Szewczyk A., Abal’oshev A., Piotrowski K., Dya- konov K., Lewandowski S.J., and Szymczak Í. 2 190 72.70.+m Øóìîâûå ïðîöåññû è ÿâëåíèÿ Nonequilibrium plasmons and transport pro- perties of a double-junction quantum wire. Kim Jaeuk U., Choi Mahn-Soo, Krive Ilya V., and Kinaret Jari M. . . . . . . . . . . . . . . 12 1522 73. Ýëåêòðîííàÿ ñòðóêòóðà è ýëåêòðè- ÷åñêèå ñâîéñòâà ïîâåðõíîñòåé, ãðàíèö ðàçäåëà è òîíêèõ ïëåíîê 73.20.–r Ýëåêòðîííûå ñîñòîÿíèÿ íà ïî- âåðõíîñòÿõ è ãðàíèöàõ ðàçäåëà 73.20.Dx Ýëåêòðîííûå ñîñòîÿíèÿ â íèçêîðàç- ìåðíûõ ñòðóêòóðàõ (ñâåðõðåøåòêè, êâàíòîâûå ÿìû, ìíîãîñëîéíûå ñòðóêòóðû) Îäíîìåðíûå è êâàçèîäíîìåðíûå ýëåêòðîí- íûå ñèñòåìû â íàíîêàíàëàõ. Çóåâà Ò.È., Êîâä- ðÿ Þ.Ç., Ñîêîëîâ Ñ.Ñ. . . . . . . . . . . 1 115 Ìàêðîñêîïè÷åñêèé ýôôåêò Aàðîíîâà—Áîìà â ñâåðõïðîâîäíèêàõ. Ïîëóýêòîâ Þ.Ì. . . . 6 729 Î âîçìîæíîì ïðîñòðàíñòâåííîì óïîðÿäî÷å- íèè ÷àñòèö â ýëåêòðîííûõ öåïî÷êàõ íàä æèä- êèì ãåëèåì. Íèêîëàåíêî Â.À., Êîâäðÿ Þ.Ç., Ìóõàðñêèé Þ. . . . . . . . . . . . . . . 7 811 Decay rate of the excited surface electron states on liquid helium. Monarkha Yu.P. and Sokolov S.S. . . . . . . . . . . . . . . . 10 1278 73.20.Fz Ñëàáàÿ èëè àíäåðñîíîâñêàÿ ëîêàëè- çàöèÿ Îäíîìåðíûå è êâàçèîäíîìåðíûå ýëåêòðîí- íûå ñèñòåìû â íàíîêàíàëàõ. Çóåâà Ò.È., Êîâä- ðÿ Þ.Ç., Ñîêîëîâ Ñ.Ñ. . . . . . . . . . . 1 115 Î âîçìîæíîì ïðîñòðàíñòâåííîì óïîðÿäî÷å- íèè ÷àñòèö â ýëåêòðîííûõ öåïî÷êàõ íàä æèä- êèì ãåëèåì. Íèêîëàåíêî Â.À., Êîâäðÿ Þ.Ç., Ìóõàðñêèé Þ. . . . . . . . . . . . . . . 7 811 Ýôôåêòû ñëàáîé ëîêàëèçàöèè è âçàèìîäåé- ñòâèÿ íîñèòåëåé çàðÿäà â äâóìåðíîì äûðî÷íîì ãàçå â ãåðìàíèåâîé êâàíòîâîé ÿìå â ãåòåðî- ñòðóêòóðå SiGe/Ge/SiGe. Áåðêóòîâ È.Á., Êîì- íèê Þ.Ô., Àíäðèåâñêèé Â.Â., Mironov O.A., Myronov M., Leadley D.R. . . . . . . . . . 7 896 73.20.Mf Êîëëåêòèâíûå âîçáóæäåíèÿ (âêëþ- ÷àÿ ïëàçìîíû è äðóãèå âîçáóæäåíèÿ çàðÿäî- âîé ïëîòíîñòè) Ê òåîðèè ìàãíèòîïëàçìåííûõ âîëí â êâàíòî- âûõ ïðîâîëîêàõ. Åðìîëàåâ À.Ì., Ðàøáà Ã.È. 3 329 73.21.–b Ýëåêòðîííûå ñîñòîÿíèÿ è êîë- ëåêòèâíûå âîçáóæäåíèÿ â ìíîãîñëîéíûõ ñòðóêòóðàõ, êâàíòîâûå ÿìû, ìåçîñêîïè- ÷åñêèå è íàíîìàñøòàáíûå ñèñòåìû 73.21.Fg Êâàíòîâûå ÿìû Exciton condensation in quantum wells. Su- gakov V.I. . . . . . . . . . . . . . . . . 11 1449 73.22.–f Ýëåêòðîííàÿ ñòðóêòóðà íàíîìà- òåðèàëîâ: êëàñòåðû, íàíî÷àñòèöû, íàíî- òðóáêè è íàíîêðèñòàëëû 73.22.Dj Îäíî÷àñòè÷íûå ñîñòîÿíèÿ Ýëåêòðîííàÿ ñòðóêòóðà óãëåðîäíûõ zigzag- íàíîòðóáîê. Òèùåíêî Ñ.Â. . . . . . . . . . 10 1256 73.23.–b Ìåçîñêîïè÷åñêèå ñèñòåìû 73.23.Hk Êóëîíîâñêîå áëîêèðîâàíèå; îäíî- ýëåêòðîííîå òóííåëèðîâàíèå Nonequilibrium plasmons and transport pro- perties of a double-junction quantum wire. Kim Jaeuk U., Choi Mahn-Soo, Krive Ilya V., and Kinaret Jari M. . . . . . . . . . . . . . . 12 1522 73.40.–c Ýëåêòðîííûé òðàíñïîðò â ñòðóêòóðàõ ñ ãðàíèöàìè ðàçäåëà 73.40.Jn Êîíòàêòû ìåòàëë—ìåòàëë Investigation of the superconducting energy gap in the compound LuNi2B2C by the method of point contact spectroscopy: two-gap approxima- tion. Bobrov N.L., Beloborod’ko S.I., Tyutrina L.V., Chernobay V.N., Yanson I.Ê., Naugle D.G., and Rathnayaka K.D. . . . . . . . . . . . 4/5 641 73.40.Rw Ñòðóêòóðû ìåòàëë—èçîëÿòîð—ìåòàëë Íåîäíîðîäíîå ïðîòåêàíèå òîêà â ïåðåõîäàõ ñâåðõïðîâîäíèê—ôóëëåðåí—ñâåðõïðîâîäíèê. Øàòåðíèê Â.Å., Èâàíþòà À.Í., Øàòåðíèê À.Â. 7 832 73.43.–f Êâàíòîâûå ýôôåêòû Õîëëà 73.43.Cd Òåîðèÿ è ìîäåëèðîâàíèå Î âîçìîæíîñòè íàáëþäåíèÿ â ãðàôåíå îáû÷- íîãî êâàíòîâîãî ýôôåêòà Õîëëà. Ãàéäèäåé Þ.Á., Ëîêòåâ Â.Ì. . . . . . . . . . . . . . . . 7 923 73.61.–r Ýëåêòpè÷åñêèå ñâîéñòâà êîíêpåòíûõ òîíêèõ ïëåíîê è ñëîèñòûõ ñòpóêòóp (ìíîãîñëîéíûå ñòpóêòópû, ñâåpõpåøåòêè, êâàíòîâûå ÿìû, ïpîâîëîêè è äîòû) Comparison of pressure, magnetic field and excess manganese effects on transport properties of film and bulk ceramic La–Ca manganites. Mikhaylov A.V., Varyukhin V.N., Shtaba V.A., Szewczyk A., Abal’oshev A., Piotrowski K., Dya- konov K., Lewandowski S.J., and Szymczak Í. 2 190 Ôèçèêà íèçêèõ òåìïåðàòóð, 2006, ò. 32, ¹ 12 1605 Ïpåäìåòíûé óêàçàòåëü òîìà 32 çà 2006 ãîä 73.63.–b Ýëåêòðîííûé ïåðåíîñ â ìàòå- ðèàëàõ è ñòðóêòóðàõ Nonequilibrium plasmons and transport pro- perties of a double-junction quantum wire. Kim Jaeuk U., Choi Mahn-Soo, Krive Ilya V., and Kinaret Jari M. . . . . . . . . . . . . . . 12 1522 73.90.+f Äðóãèå òåìû â ýëåêòðîííîé ñòðóêòóðå è ýëåêòðè÷åñêèõ ñâîéñòâàõ ïî- âåðõíîñòåé, ïîâåðõíîñòåé ðàçäåëà è òîí- êèõ ïëåíîê The distribution of field-induced charges in C60 fullerite. Êuprievich V.À., Kapitanchuk O.L., Shramko Î.V., and Kudritska Z.G. . . . . . 1 125 Decay rate of the excited surface electron states on liquid helium. Monarkha Yu.P. and Sokolov S.S. . . . . . . . . . . . . . . . 10 1278 74. Ñâåðõïðîâîäèìîñòü 74.10.+v Âîçíèêíîâåíèå, ïîòåíöèàëüíûå êàíäèäàòû Nonadiabatic breakdown and pairing in high-Tc compounds. Pietronero L. and Cappelluti E. . 4/5 455 74.20.–z Òåîðèè è ìîäåëè ñâåðõïðîâîäÿ- ùåãî ñîñòîÿíèÿ Present status of the theory of high-Tc cup- rates. Anderson P.W.. . . . . . . . . . . . 4/5 381 Theory of antiferromagnetic pairing in cuprate superconductors. Plakida N.Ì. . . . . . . . 4/5 483 74.20.De Ôåíîìåíîëîãè÷åñêèå òåîðèè (äâóõ- æèäêîñòíàÿ, Ãèíçáóðãà—Ëàíäàó è ò.ä.) Complexity in high-temperature superconduc- tors. Alvarez G., Moreo A., and Dagotto E. . . 4/5 391 74.20.Fg Òåîðèÿ ÁÊØ è åå ðàçâèòèå Applying BCS-BEC crossover theory to high- temperature superconductors and ultracold ato- mic Fermi gases. Chen Q. (Review Article), Stajic J., and Levin K. . . . . . . . . . . . 4/5 538 74.20.Mn Íåêîíâåðñèîííûå ìåõàíèçìû (ñïè- íîâûå ôëóêòóàöèè, ïîëÿðîíû è áèïîëÿðîíû, ìîäåëü ðåçîíàíñíûõ âàëåíòíûõ ñâÿçåé, ýíèîí- íûé ìåõàíèçì, ìàðãèíàëüíàÿ ôåðìè-æèäêîñòü, æèäêîñòü Ëàòòèíæåðà è ò. ï.) Theory of antiferromagnetic pairing in cuprate superconductors. Plakida N.Ì. . . . . . . . 4/5 483 Superconductivity and antiferromagnetism in quasi-one-dimensional organic conductors. Dupuis N., Bourbonnais C., and Nickel J.C. . . . . . 4/5 505 Electron structure and electron—phonon inter- action in the strongly correlated electron system of cuprates. Ovchinnikov S.G., Gavrichkov V.À., Korshunov Ì.Ì., and Shneyder E.I. . . . . . 4/5 634 Spin excitations in layered cuprates: a Fer- mi-liquid approach. Eremin I. and Manske D. . 6 683 74.20.Rp Ñèììåòðèè ñïàðèâàíèÿ (îòëè÷àþ- ùèåñÿ îò S-âîëíû) Complexity in high-temperature superconduc- tors. Alvarez G., Moreo A., and Dagotto E. . . 4/5 391 Temperature—carrier-concentration phase dia- gram of a two-dimensional doped d-wave super- conductor. Loktev V.M. and Turkowski V.M. . 8/9 1055 74.25.–q Îáùèå ñâîéñòâà; êîððåëÿöèè ôè- çè÷åñêèõ ñâîéñòâ â íîðìàëüíîì è ñâåðõïðî- âîäÿùåì ñîñòîÿíèÿõ Stripe phases: possible ground state of the high-Tc superconductors. Raczkowski M., Ole� A.M., and Fr�sard R.. . . . . . . . . . . . 4/5 411 Spin excitations in layered cuprates: a Fermi- liquid approach. Eremin I. and Manske D. . . 6 683 74.25.Dw Ôàçîâûå äèàãðàììû ñâåðõïðîâîä- íèêîâ Temperature—carrier-concentration phase dia- gram of a two-dimensional doped d-wave super- conductor. Loktev V.M. and Turkowski V.M. . 8/9 1055 74.25.Gz Îïòè÷åñêèå ñâîéñòâà Optical-conductivity sum rule in cuprates and unconventional charge density waves: a short re- view. Benfatto L. and Sharapov S.G. . . . . . 6 700 74.25.Ha Ìàãíèòíûå ñâîéñòâà Spin dynamics in cuprate perovskites. Sher- man A.V. and Schreiber M. . . . . . . . . . 4/5 499 Èññëåäîâàíèå ëîêàëüíî çàìîðîæåííîãî ìàã- íèòíîãî ïîëÿ â ÂÒÑÏ êåðàìèêå. Áîíäàðåíêî Ñ.È., Øàáëî À.À., Êîâåðÿ Â.Ï. . . . . . . 7 825 74.25.Jb Ýëåêòðîííàÿ ñòðóêòóðà ARPES on high-temperature superconductors: simplicity vs complexity (Review Article). Kor- dyuk A.A. and Borisenko S.V.. . . . . . . . 4/5 401 Correlated band structure of electron-doped cuprate materials. Dahnken C., Potthoff M., Ar- rigoni E., and Hanke W. . . . . . . . . . . 4/5 602 Electron structure and electron—phonon inter- action in the strongly correlated electron system of cuprates. Ovchinnikov S.G., Gavrichkov V.À., Korshunov Ì.Ì., and Shneyder E.I. . . . . . 4/5 634 Ýëåêòðîííûé ñïåêòð ïîãëîùåíèÿ òâåðäûõ ðàñ- òâîðîâ ñèñòåìû RbI—AgI—CsI. Þíàêîâà Î.Í., Ìèëîñëàâñêèé Â.Ê., Êîâàëåíêî Å.Í. . . . . 10 1267 74.25.Kc Ôîíîíû Electron structure and electron—phonon inter- action in the strongly correlated electron system of cuprates. Ovchinnikov S.G., Gavrichkov V.À., Korshunov Ì.Ì., and Shneyder E.I. . . . . . 4/5 634 74.25.Nf Îòêëèê íà âîçäåéñòâèå ýëåêòðîìàã- íèòíûõ ïîëåé (ÿäåðíûé ìàãíèòíûé ðåçîíàíñ, ïîâåðõíîñòíûé èìïåäàíñ è ò.ä.) Microwave response of single crystal YBa2Cu3O7–� films as a probe for pairing sym- metry. Pan V.Ì., Êalenyuk O.À., Kasatkin O.L., Êîmashko V.À., Ivanyuta O.M., and Melkov G.À. 4/5 651 1606 Ôèçèêà íèçêèõ òåìïåðàòóð, 2006, ò. 32, ¹ 12 Ïpåäìåòíûé óêàçàòåëü òîìà 32 çà 2006 ãîä Laser scanning microscopy of HTS films and devices (Review Article). Zhuravel A.P., Siva- kov A.G., Turutanov O.G., Omelyanchouk A.N., Anlage Steven M., Lukashenko A., Ustinov A.V., and Abraimov D. . . . . . . . . . . . . . 6 775 Microwave properties of HTS films: measure- ments in millimeter wave range. Cherpak N.T., Barannik A.A., Prokopenko Yu.V., Filipov Yu.F., and Vitusevich S.A. . . . . . . . . . . . . 6 795 Recent observation of anomalous supercon- ducting behavior of ultrathin YBCO films and single crystals of cluster borides. Gasparov V.A. 8/9 1105 Giant parametric amplification of the non- linear response in a single crystal of beryllium in a quantizing magnetic field. Tsindlekht M.I., Lo- goboy N., Egorov V.S., Kramer R.B.G., Jansen A.G.M., and Joss W.. . . . . . . . . . . . 8/9 1129 Îáíàðóæåíèå àíîìàëüíîãî ïèêà ýëåêòðîñî- ïðîòèâëåíèÿ ìîíîêðèñòàëëà UFe4Al8 â îáëàñòè òåìïåðàòóð 160–100 Ê è îòðèöàòåëüíîãî ìàãíè- òîñîïðîòèâëåíèÿ â ïîëÿõ äî 400 Ý. Äìèòðèåâ Â.Ì., Òåðåõîâ À.Â., Ñóñêè Â. . . . . . . . 10 1241 74.25.Qt Âèõðåâûå ðåøåòêè, ïèííèíã ïîòîêà, ïîëçó÷åñòü ïîòîêà Êðèï ìàãíèòíîãî ïîòîêà â òîíêèõ ÂÒÑÏ ïëåíêàõ YBa2Cu3O7–� âáëèçè êðèòè÷åñêîé òåì- ïåðàòóðû. ×åðíîìîðåö Ì.Ï., Êîâàëü÷óê Ä.Ã., Ðÿá÷åíêî Ñ.Ì., Ñåìåíîâ À.Â. . . . . . . . 3 277 Îñîáåííîñòè ïèííèíãà âèõðåé è êðèïà ìàã- íèòíîãî ïîòîêà â òîíêèõ ýïèòàêñèàëüíûõ ÂÒÑÏ ïëåíêàõ YBa2Cu3O7–� âáëèçè êðèòè÷å- ñêîé òåìïåðàòóðû. ×åðíîìîðåö Ì.Ï., Êîâàëü- ÷óê Ä.Ã., Ðÿá÷åíêî Ñ.Ì., Ñåìåíîâ À.Â., Ïà- øèöêèé Ý.À. . . . . . . . . . . . . . . . 8/9 1096 74.25.Sv Êðèòè÷åñêèå òîêè Ñâåðõòîê ïëîòíîñòüþ âûøå 106 À/ñì2 ïðè 77 Ê â ìîíîêðèñòàëëè÷åñêîì ïëåíî÷íîì ïðî- âîäíèêå èç ÂÒÑÏ êóïðàòà YBa2Cu3O7–� — ìå÷òà èëè ðåàëüíîñòü? Ïàí Â.Ì. . . . . . . 8/9 1029 74.40.+k Ôëóêòóàöèè (øóìû, õàîñ, íå- pàâíîâåñíàÿ ñâåpõïpîâîäèìîñòü, ëîêàëè- çàöèÿ è ò.ä.) Èññëåäîâàíèå ïñåâäîùåëè â ïëåíêàõ YBCO ðåçèñòèâíûì ìåòîäîì ñ ó÷åòîì ïåðåõîäà îò ÁÊØ ê áîçå-ýéíøòåéíîâñêîé êîíäåíñàöèè. Ñîëîâüåâ À.Ë., Äìèòðèåâ Â.Ì. . . . . . . . . . . . 2 139 Magnetic field induced finite size effect in type-II superconductors. Schneider T. . . . . 4/5 521 Ôëóêòóàöèîííàÿ ïðîâîäèìîñòü è ïñåâäîùåëü â ïëåíêàõ Y1–õPrõBa2Cu3O7–y. Ñîëîâüåâ À.Ë., Äìèòðèåâ Â.Ì.. . . . . . . . . . . . . . 6 753 Temperature—carrier-concentration phase dia- gram of a two-dimensional doped d-wave super- conductor. Loktev V.M. and Turkowski V.M. . 8/9 1055 74.45.+c Ýôôåêòû áëèçîñòè; ýôôåêò Àíäðååâà; SN è SNS ïåðåõîäû The theory of the reentrant effect in suscep- tibility of cylindrical mesoscopic samples. Gogad- ze G.A. . . . . . . . . . . . . . . . . . . 6 716 Àíäðååâñêàÿ ñïåêòðîñêîïèÿ òî÷å÷íûõ êîíòàê- òîâ íèçêîòåìïåðàòóðíûé ñâåðõïðîâîäíèê—ìàí- ãàíèò. Äüÿ÷åíêî À.È., Êðèâîðó÷êî Â.Í., Òàðåí- êîâ Â.Þ. . . . . . . . . . . . . . . . . . 8/9 1085 74.50.+r Ýôôåêòû áëèçîñòè, ñëàáûå ñâÿ- çè, òóííåëèðîâàíèå, ýôôåêò Äæîçåôñîíà The theory of the reentrant effect in suscep- tibility of cylindrical mesoscopic samples. Gogad- ze G.A. . . . . . . . . . . . . . . . . . . 6 716 Íåîäíîðîäíîå ïðîòåêàíèå òîêà â ïåðåõîäàõ ñâåðõïðîâîäíèê—ôóëëåðåí—ñâåðõïðîâîäíèê. Øàòåðíèê Â.Å., Èâàíþòà À.Í., Øàòåðíèê À.Â. 7 832 Àíäðååâñêàÿ ñïåêòðîñêîïèÿ òî÷å÷íûõ êîíòàê- òîâ íèçêîòåìïåðàòóðíûé ñâåðõïðîâîäíèê—ìàí- ãàíèò. Äüÿ÷åíêî À.È., Êðèâîðó÷êî Â.Í., Òàðåí- êîâ Â.Þ. . . . . . . . . . . . . . . . . . 8/9 1085 Resonant effects in the strongly driven phase- biased Cooper-pair box. Shevchenko S.N. and Omelyanchouk A.N. . . . . . . . . . . . . 10 1282 74.60.–w Ñâåðõïðîâîäíèêè II ðîäà 74.60.Ec Ñìåøàííîå ñîñòîÿíèå, êðèòè÷åñêèå ïîëÿ è ïîâåðõíîñòíûé ñëîé Giant parametric amplification of the non- linear response in a single crystal of beryllium in a quantizing magnetic field. Tsindlekht M.I., Lo- goboy N., Egorov V.S., Kramer R.B.G., Jansen A.G.M., and Joss W.. . . . . . . . . . . . 8/9 1129 74.60.Jg Êðèòè÷åñêèå òîêè Òîíêèå ÂÒÑÏ ïëåíêè YBCO ñ çàìîðîæåí- íûìè íàïðÿæåíèÿìè. Þãàé Ê.Í., Ìóðàâüåâ À.Á., Ñåðîïÿí Ã.Ì., Êîíîâàëåíêî Ê.Á., Huh Young . . . . . . . . . . . . . . . . . . 1 75 74.62.–c Èçìåíåíèÿ òåìïåðàòóðû ïåðåõîäà Ìàêðîñêîïè÷åñêèé ýôôåêò Aàðîíîâà—Áîìà â ñâåðõïðîâîäíèêàõ. Ïîëóýêòîâ Þ.Ì. . . . 6 729 Adjustment of superconductivity and ferromag- netism in the few-layered ferromagnet—supercon- ductor nanostructures. Izyumov Y.A., Khusainov M.G., and Proshin Y.N. . . . . . . . . . . 8/9 1065 74.62.Dh Âëèÿíèå äåôåêòîâ êðèñòàëëè÷åñêîé ñòðóêòóðû, äîïèðîâàíèÿ è ïðèìåñåé çàìåùåíèÿ Temperature—carrier-concentration phase dia- gram of a two-dimensional doped d-wave super- conductor. Loktev V.M. and Turkowski V.M. . 8/9 1055 74.62.Fj Âëèÿíèå äàâëåíèÿ Òîíêèå ÂÒÑÏ ïëåíêè YBCO ñ çàìîðîæåííû- ìè íàïðÿæåíèÿìè. Þãàé Ê.Í., Ìóðàâüåâ À.Á., Ñåðîïÿí Ã.Ì., Êîíîâàëåíêî Ê.Á., Huh Young 1 75 74.70.–b Ñâåðõïðîâîäÿùèå ìàòåðèàëû (êðîìå âûñîêîòåìïåðàòóðíûõ ñâåðõïðîâî- äÿùèõ ñîåäèíåíèé) 74.70.Ad Ìåòàëëû; ñïëàâû è áèíàðíûå ñîåäè- íåíèÿ (âêëþ÷àÿ À15 è ò.ï.) Íåîäíîðîäíîå ïðîòåêàíèå òîêà â ïåðåõîäàõ ñâåðõïðîâîäíèê—ôóëëåðåí—ñâåðõïðîâîäíèê. Øàòåðíèê Â.Å., Èâàíþòà À.Í., Øàòåðíèê À.Â. 7 832 Ôèçèêà íèçêèõ òåìïåðàòóð, 2006, ò. 32, ¹ 12 1607 Ïpåäìåòíûé óêàçàòåëü òîìà 32 çà 2006 ãîä Recent observation of anomalous supercon- ducting behavior of ultrathin YBCO films and single crystals of cluster borides. Gasparov V.A. 8/9 1105 74.70.Kn Îðãàíè÷åñêèå ñâåðõïðîâîäíèêè Incoherent interlayer electron hopping as a possible reason for enhanced magnetic quantum oscillations in the mixed state of a layered organic superconductor. Gvozdikov V.M. and Wosnitza J. . . . . . . . . . . . . . . . . 2 152 Superconductivity and antiferromagnetism in quasi-one-dimensional organic conductors (Re- view Article). Dupuis N., Bourbonnais C., and Nickel J.C. . . . . . . . . . . . . . . . . 4/5 505 74.70.Wz Ôóëëåðåíû è ðîäñòâåííûå ìàòåðèàëû Thermal expansion and polyamorphism of N2–C60 solutions. Manzhelii V.G., Dolbin A.V., Esel’son V.B., Gavrilko V.G., Gadd G.E., Mo- ricca S., Cassidy D., and Sundqvist B. . . . . 7 913 Low-temperature heat capacity of fullerite C60 doped with nitrogen. Gurevich À.M., Te- rekhov A.V., Kondrashev D.S., Dolbin A.V., Cassidy D., Gadd G.E., Moricca S., and Sand- qvist B.. . . . . . . . . . . . . . . . . . 10 1275 74.72.–h Âûñîêîòåìïåðàòóðíûå ñâåðõ- ïðîâîäÿùèå ñîåäèíåíèÿ Present status of the theory of high-Tc cup- rates. Anderson P.W.. . . . . . . . . . . . 4/5 381 Stripe phases: possible ground state of the high-Tc superconductors. Raczkowski M., Ole� A.M., and Fr�sard R.. . . . . . . . . . . . 4/5 411 Theory of antiferromagnetic pairing in cuprate superconductors. Plakida N.Ì. . . . . . . . 4/5 483 Spin dynamics in cuprate perovskites. Sher- man A.V. and Schreiber M. . . . . . . . . . 4/5 499 Pseudogap: introducing the length scale into dynamical mean-field theory. Kuchinskii E.Z., Nekrasov I.A., and Sadovskii M.V.. . . . . . 4/5 528 The role of the Coulomb interaction in the formation of superconducting and pseudogap states in cuprate metal-oxides. Pashitskii E.À. and Pentegov V.I. . . . . . . . . . . . . . 4/5 596 Correlated band structure of electron-doped cuprate materials. Dahnken C., Potthoff M., Ar- rigoni E., and Hanke W. . . . . . . . . . . 4/5 602 Electron structure and electron—phonon inter- action in the strongly correlated electron system of cuprates. Ovchinnikov S.G., Gavrichkov V.À., Korshunov Ì.Ì., and Shneyder E.I. . . . . . 4/5 634 Modern superconductive materials for electri- cal machines and devices working on the prin- ciple of levitation. Prikhna T.A. . . . . . . . 4/5 661 Spin excitations in layered cuprates: a Fer- mi-liquid approach. Eremin I. and Manske D. . 6 683 Optical-conductivity sum rule in cuprates and unconventional charge density waves: a short review. Benfatto L. and Sharapov S.G. . . . . 6 700 Superconducting gap and pseudogap. Deut- scher Guy. . . . . . . . . . . . . . . . . 6 740 Î äâóõ òèïàõ âèõðåïîäîáíûõ âîçáóæäåíèé â ïñåâäîùåëåâîì ñîñòîÿíèè íåäîñòàòî÷íî äîïè- ðîâàííîãî ÂÒÑÏ. Ñåðãååâà Ã.Ã.. . . . . . . 6 761 Î âëèÿíèè âûñîêîãî äàâëåíèÿ íà ôëóêòóà- öèîííóþ ïðîâîäèìîñòü ìîíîêðèñòàëëîâ YBa2Cu3O7–� ñ äåôèöèòîì êèñëîðîäà. Îáîëåí- ñêèé Ì.À., Âîâê Ð.Â., Áîíäàðåíêî À.Â. . . . 6 802 Temperature—carrier-concentration phase dia- gram of a two-dimensional doped d-wave super- conductor. Loktev V.M. and Turkowski V.M. . 8/9 1055 Ïñåâäîùåëåâûå ýôôåêòû â ñèëüíî êîððåëèðî- âàííûõ ýëåêòðîííûõ ñèñòåìàõ. Áîÿðñêèé Ë.À. 8/9 1078 Ýâîëþöèÿ ïñåâäîùåëåâîãî ñîñòîÿíèÿ â ñëà- áîäîïèðîâàííûõ ïðàçåîäèìîì ìîíîêðèñòàëëàõ Y1–zPrzBa2Cu3O7–x ñ çàäàííîé òîïîëîãèåé ïëî- ñêèõ äåôåêòîâ, Îáîëåíñêèé Ì.À., Âîâê Ð.Â., Áîíäàðåíêî À.Â. . . . . . . . . . . . . . 12 1488 74.72.Bk Êóïðàòû íà îñíîâå Y Òîíêèå ÂÒÑÏ ïëåíêè YBCO ñ çàìîðîæåí- íûìè íàïðÿæåíèÿìè. Þãàé Ê.Í., Ìóðàâüåâ À.Á., Ñåðîïÿí Ã.Ì., Êîíîâàëåíêî Ê.Á., Huh Young . . . . . . . . . . . . . . . . . . 1 75 Êðèï ìàãíèòíîãî ïîòîêà â òîíêèõ ÂÒÑÏ ïëåíêàõ YBa2Cu3O7–� âáëèçè êðèòè÷åñêîé òåìïåðàòóðû. ×åðíîìîðåö Ì.Ï., Êîâàëü÷óê Ä.Ã., Ðÿá÷åíêî Ñ.Ì., Ñåìåíîâ À.Â. . . . . . 3 277 Microwave response of single crystal YBa2Cu3O7–� films as a probe for pairing sym- metry. Pan V.Ì., Êalenyuk O.À., Kasatkin O.L., Êîmashko V.À., Ivanyuta O.M., and Melkov G.À. . . . . . . . . . . . . . . . 4/5 651 Localization effects and pseudogap state in YBa2Cu3O7–� single crystals with different oxy- gen content. Obolenskii M.A., Vovk R.V., Bon- darenko A.V., and Chebotaev N.N. . . . . . . 6 746 Ôëóêòóàöèîííàÿ ïðîâîäèìîñòü è ïñåâäî- ùåëü â ïëåíêàõ Y1–õPrõBa2Cu3O7–y. Ñîëîâüåâ À.Ë., Äìèòðèåâ Â.Ì. . . . . . . . . . . . 6 753 Èññëåäîâàíèå ëîêàëüíî çàìîðîæåííîãî ìàã- íèòíîãî ïîëÿ â ÂÒÑÏ êåðàìèêå. Áîíäàðåíêî Ñ.È., Øàáëî À.À., Êîâåðÿ Â.Ï. . . . . . . 7 825 Ñâåðõòîê ïëîòíîñòüþ âûøå 106 À/ñì2 ïðè 77 Ê â ìîíîêðèñòàëëè÷åñêîì ïëåíî÷íîì ïðî- âîäíèêå èç ÂÒÑÏ êóïðàòà YBa2Cu3O7–� — ìå÷òà èëè ðåàëüíîñòü? Ïàí Â.Ì. . . . . . . 8/9 1029 Îñîáåííîñòè ïèííèíãà âèõðåé è êðèïà ìàã- íèòíîãî ïîòîêà â òîíêèõ ýïèòàêñèàëüíûõ ÂÒÑÏ ïëåíêàõ YBa2Cu3O7–� âáëèçè êðèòè÷å- ñêîé òåìïåðàòóðû. ×åðíîìîðåö Ì.Ï., Êîâàëü- ÷óê Ä.Ã., Ðÿá÷åíêî Ñ.Ì., Ñåìåíîâ À.Â., Ïà- øèöêèé Ý.À. . . . . . . . . . . . . . . . 8/9 1096 Recent observation of anomalous supercon- ducting behavior of ultrathin YBCO films and single crystals of cluster borides. Gasparov V.A. 8/9 1105 Ïåðêîëÿöèÿ è ýôôåêò Äæîçåôñîíà â ÂÒÑÏ êîìïîçèòàõ íà îñíîâå èòòðèåâîé êåðàìèêè. Ñà- íèêèäçå Äæ.Ã., Êîõðåèäçå Ð.Ã., Îäåíîâ Ñ.Â. 8/9 1115 1608 Ôèçèêà íèçêèõ òåìïåðàòóð, 2006, ò. 32, ¹ 12 Ïpåäìåòíûé óêàçàòåëü òîìà 32 çà 2006 ãîä 74.72.Dn Êóïðàòû íà îñíîâå La Interaction of strongly correlated electrons and acoustical phonons. Moskalenko V.A., Entel P., and Digor D. . . . . . . . . . . . . . . . 4/5 609 74.72.Hs Êóïðàòû íà îñíîâå Bi ARPES on high-temperature superconductors: simplicity vs complexity. Kordyuk A.A. and Bo- risenko S.V.. . . . . . . . . . . . . . . . 4/5 401 74.76.–w Ñâåðõïðîâîäÿùèå ïëåíêè 74.76.Bz ÂÒÑÏ ïëåíêè Òîíêèå ÂÒÑÏ ïëåíêè YBCO ñ çàìîðîæåííû- ìè íàïðÿæåíèÿìè. Þãàé Ê.Í., Ìóðàâüåâ À.Á., Ñåðîïÿí Ã.Ì., Êîíîâàëåíêî Ê.Á., Huh Young 1 75 74.78.–w Ñâåðõïðîâîäÿùèå ïëåíêè è íèçêîðàçìåðíûå ñòðóêòóðû 74.78.Bz Ïëåíêè ñ âûñîêîé Tc Êðèï ìàãíèòíîãî ïîòîêà â òîíêèõ ÂÒÑÏ ïëåíêàõ YBa2Cu3O7–� âáëèçè êðèòè÷åñêîé òåì- ïåðàòóðû. ×åðíîìîðåö Ì.Ï., Êîâàëü÷óê Ä.Ã., Ðÿá÷åíêî Ñ.Ì., Ñåìåíîâ À.Â. . . . . . . . 3 277 Microwave response of single crystal YBa2Cu3O7–� films as a probe for pairing sym- metry. Pan V.Ì., Êalenyuk O.À., Kasatkin O.L., Êîmashko V.À., Ivanyuta O.M., and Melkov G.À. 4/5 651 Laser scanning microscopy of HTS films and devices (Review Article). Zhuravel A.P., Siva- kov A.G., Turutanov O.G., Omelyanchouk A.N., Anlage Steven M., Lukashenko A., Ustinov A.V., and Abraimov D. . . . . . . . . . . . . . 6 775 Microwave properties of HTS films: measure- ments in millimeter wave range. Cherpak N.T., Barannik A.A., Prokopenko Yu.V., Filipov Yu.F., and Vitusevich S.A. . . . . . . . . . . . . 6 795 Ñâåðõòîê ïëîòíîñòüþ âûøå 106 À/ñì2 ïðè 77 Ê â ìîíîêðèñòàëëè÷åñêîì ïëåíî÷íîì ïðî- âîäíèêå èç ÂÒÑÏ êóïðàòà YBa2Cu3O7–� — ìå÷òà èëè ðåàëüíîñòü? Ïàí Â.Ì. . . . . . . 8/9 1029 Îñîáåííîñòè ïèííèíãà âèõðåé è êðèïà ìàã- íèòíîãî ïîòîêà â òîíêèõ ýïèòàêñèàëüíûõ ÂÒÑÏ ïëåíêàõ YBa2Cu3O7–� âáëèçè êðèòè÷å- ñêîé òåìïåðàòóðû. ×åðíîìîðåö Ì.Ï., Êîâàëü- ÷óê Ä.Ã., Ðÿá÷åíêî Ñ.Ì., Ñåìåíîâ À.Â., Ïà- øèöêèé Ý.À. . . . . . . . . . . . . . . . 8/9 1096 74.78.Fk Ìíîãîñëîéíèêè, ñâåðõðåøåòêè, ãåòå- ðîñòðóêòóðû Adjustment of superconductivity and ferromag- netism in the few-layered ferromagnet—supercon- ductor nanostructures. Izyumov Y.A., Khusainov M.G., and Proshin Y.N. . . . . . . . . . . 8/9 1065 Àíäðååâñêàÿ ñïåêòðîñêîïèÿ òî÷å÷íûõ êîíòàê- òîâ íèçêîòåìïåðàòóðíûé ñâåðõïðîâîäíèê—ìàí- ãàíèò. Äüÿ÷åíêî À.È., Êðèâîðó÷êî Â.Í., Òàðåí- êîâ Â.Þ. . . . . . . . . . . . . . . . . . 8/9 1085 74.80.–g Ïðoñòðàíñòâåííî-íåîäíîðîäíûå ñòðóêòóðû Î äâóõ òèïàõ âèõðåïîäîáíûõ âîçáóæäåíèé â ïñåâäîùåëåâîì ñîñòîÿíèè íåäîñòàòî÷íî äîïèðî- âàííîãî ÂÒÑÏ. Ñåðãååâà Ã.Ã. . . . . . . . . 6 761 74.81.–g Íåîäíîðîäíûå ñâåðõïðîâîäíè- êè è ñâåðõïðîâîäÿùèå ñèñòåìû 74.81.Bd Ãðàíóëèðîâàííûå, òåêñòóðèðîâàííûå ïëàâëåíèåì, àìîðôíûå è êîìïîçèòíûå ñâåðõ- ïðîâîäíèêè Ïåðêîëÿöèÿ è ýôôåêò Äæîçåôñîíà â ÂÒÑÏ êîìïîçèòàõ íà îñíîâå èòòðèåâîé êåðàìèêè. Ñà- íèêèäçå Äæ.Ã., Êîõðåèäçå Ð.Ã., Îäåíîâ Ñ.Â. 8/9 1115 75. Ìàãíèòíûå ñâîéñòâà è ìàòåðèàëû 75.10.–b Îáùàÿ òåîðèÿ è ìîäåëè ìàãíèò- íîãî óïîðÿäî÷åíèÿ Êâàíòîâûå ôàçîâûå ïåðåõîäû è ôàçîâàÿ H–T äèàãðàììà âàí-ôëåêîâñêîãî ìíîãîïîäðå- øåòî÷íîãî àíòèôåððîìàãíåòèêà. Êàëèòà Â.Ì., Ëîêòåâ Â.Ì. . . . . . . . . . . . . . . . 2 158 Effect of doping on the magnetic ordering of quasi-one-dimensional antiferromagnets. Zvya- gin A.A. . . . . . . . . . . . . . . . . . 2 214 Ôàçîâûå ïåðåõîäû â ôåððîìàãíåòèêå ñ àíè- çîòðîïíûì áèêâàäðàòè÷íûì îáìåííûì âçàèìî- äåéñòâèåì. Ôðèäìàí Þ.À., Êîñìà÷åâ Î.À., Êëåâåö Ô.Í. . . . . . . . . . . . . . . . 3 289 Î ìàãíèòíîì êîëëàïñå â ñèëüíî ñæàòîì òâåð- äîì êèñëîðîäå. Êàëèòà Â.Ì., Ëîêòåâ Â.Ì. . 3 317 Ñòàòè÷åñêîå êðèòè÷åñêîå ïîâåäåíèå 3D-ôðó- ñòðèðîâàííîé ìîäåëè Ãåéçåíáåðãà íà ñëîèñòîé òðåóãîëüíîé ðåøåòêå. Ìóðòàçàåâ À.Ê., Êàìè- ëîâ È.Ê., Ðàìàçàíîâ Ì.Ê. . . . . . . . . . 3 323 To the mean-field theory of a two-sublattice antiferromagnet. Zvyagin A.A. and Skorobagat’- ko G.A. . . . . . . . . . . . . . . . . . 7 845 75.10.Dg Òåîðèÿ êðèñòàëëè÷åñêîãî ïîëÿ è ñïèíîâûå ãàìèëüòîíèàíû Âëèÿíèå óïðóãîé ïîäñèñòåìû íà ôàçîâûå ïå- ðåõîäû â ôåððîìàãíåòèêàõ ñ îáìåííîé è îäíî- èîííîé àíèçîòðîïèÿìè. Ôðèäìàí Þ.À., Êëåâåö Ô.Í., Ìàòþíèí Ä.À. . . . . . . . . . . . 7 861 75.10.Jm Êâàíòîâûå ñïèíîâûå ìîäåëè Íèçêîòåìïåðàòóðíûå ñâîéñòâà ñïèíîâîé XY-öåïî÷êè ñ ïðèìåñíûì ôðàãìåíòîì. Åçåð- ñêàÿ Å.Â., ×îâïàí À.À. . . . . . . . . . . 10 1213 75.10.Lp Çîííûå è ñòðàíñòâóþùèå ìîäåëè Îñîáåííîñòè ýëåêòðîííîãî ñïåêòðà è àíîìàëü- íûé ìàãíåòèçì â ñîåäèíåíèÿõ YbPb3, YbSn3, CaPb3, CaSn3. Áàðàíîâñêèé À.Å., Ãðå÷íåâ Ã.Å., Ñâå÷êàðåâ È.Â. . . . . . . . . . . . . . . 8/9 1119 75.10.Nr Ñïèíîâûå ñòåêëà è äðóãèå ìîäåëè íåóïîðÿäî÷åííûõ ñòðóêòóð Effect of doping on the magnetic ordering of quasi-one-dimensional antiferromagnets. Zvya- gin A.A. . . . . . . . . . . . . . . . . . 2 214 Ôèçèêà íèçêèõ òåìïåðàòóð, 2006, ò. 32, ¹ 12 1609 Ïpåäìåòíûé óêàçàòåëü òîìà 32 çà 2006 ãîä 75.10.Pq Ñïèíîâûå öåïî÷å÷íûå ìîäåëè Effect of doping on the magnetic ordering of quasi-one-dimensional antiferromagnets. Zvya- gin A.A. . . . . . . . . . . . . . . . . . 2 214 75.20.–g Äèàìàãíåòèçì è ïàðàìàãíåòèçì Îñîáåííîñòè ýëåêòðîííîãî ñïåêòðà è àíîìàëü- íûé ìàãíåòèçì â ñîåäèíåíèÿõ YbPb3, YbSn3, CaPb3, CaSn3. Áàðàíîâñêèé À.Å., Ãðå÷íåâ Ã.Å., Ñâå÷êàðåâ È.Â. . . . . . . . . . . . . . . 8/9 1119 The temperature dependence of magnetic sus- ceptibility of solid oxygen. Je�owski A., Lit- wicki Z., Sumarokov V.V., and Stachowiak P. . 11 1422 75.20.Ñk Íåìåòàëëû The temperature dependence of magnetic sus- ceptibility of solid oxygen. Je�owski A., Lit- wicki Z., Sumarokov V.V., and Stachowiak P. . 11 1422 75.25.+z Ðàñïîëîæåíèå ñïèíîâ â ìàãíè- òîóïîðÿäî÷åííûõ ìàòåðèàëàõ (âêëþ÷àÿ èññëåäîâàíèÿ ïðè ïîìîùè íåéòðîíîâ è ñïèí-ïîëÿðèçîâàííûõ ýëåêòðîíîâ, ðàññåÿ- íèå ñèíõðîòðîííîãî ðåíòãåíîâñêîãî èçëó- ÷åíèÿ è ò.ä.) Çàòóõàíèå ñïèíîâûõ âîëí ïðè ñïèí-îðèåíòà- öèîííûõ ôàçîâûõ ïåðåõîäàõ. Áàðüÿõòàð Â.Ã., Äàíèëåâè÷ À.Ã. . . . . . . . . . . . . . . 8/9 1010 75.30.–m Õàðàêòåðíûå ñâîéñòâà ìàãíèòî- óïîðÿäî÷åííûõ ìàòåðèàëîâ Ìàãíèòíûå ñâîéñòâà ñèíãëåòíîãî àíòèôåððî- ìàãíåòèêà KTb(WO4)2. Ëîãèíîâ À.À., Õàöüêî Å.Í., ×åðíûé À.Ñ., Áàóìåð Â.Í., Ðûêîâà À.È., Êàëèíèí Ï.Ñ., Ñóëüïèñ À. . . . . . . . . . 1 91 Ðåäêîçåìåëüíûå ôåððîáîðàòû RFe3(BO3)4 (Îáçîð). Âàñèëüåâ À.Í., Ïîïîâà Å.À. . . . . 8/9 968 Êèíåòè÷åñêèå ñâîéñòâà è ìàãíèòíàÿ âîñïðè- èì÷èâîñòü La0,825Sr0,175MnO3 ïîä ãèäðîñòàòè- ÷åñêèì äàâëåíèåì. Èöêåâè÷ Å.Ñ., Êðàéäåíîâ Â.Ô., Êóçüìèí Ñ.Ì. . . . . . . . . . . . 10 1222 75.30.Cr Ìîìåíòû íàñûùåíèÿ è ìàãíèòíàÿ âîñïðèèì÷èâîñòü The temperature dependence of magnetic sus- ceptibility of solid oxygen. Je�owski A., Lit- wicki Z., Sumarokov V.V., and Stachowiak P. . 11 1422 Ýëåêòðîííàÿ ñòðóêòóðà è ìàãíèòíûå ñâîéñòâà ñïëàâîâ RNi5–xCux (R = Y, La, Ce). Ãðå÷íåâ Ã.Å., Ëîãîøà À.Â., Ñâå÷êàðåâ È.Â., Êó÷èí À.Ã., Êóëèêîâ Þ.À., Korzhavyi P.A., Eriksson O. . . 12 1498 75.30.Ds Ñïèíîâûå âîëíû Ôàçîâûå ïåðåõîäû â ôåððîìàãíåòèêå ñ àíè- çîòðîïíûì áèêâàäðàòè÷íûì îáìåííûì âçàèìî- äåéñòâèåì. Ôðèäìàí Þ.À., Êîñìà÷åâ Î.À., Êëåâåö Ô.Í. . . . . . . . . . . . . . . . 3 289 Magnon excitations in vortex-state nanorings. Zaspel C.E., Owens J.W., and Ivanov B.A. . . 12 1493 75.30.Fv Âîëíû ñïèíîâîé ïëîòíîñòè Superconductivity and antiferromagnetism in quasi-one-dimensional organic conductors. Dupuis N., Bourbonnais C., and Nickel J.C. . . . . . 4/5 505 75.30.Gw Ìàãíèòíàÿ àíèçîòðîïèÿ Ôàçîâûå ïåðåõîäû â ôåððîìàãíåòèêå ñ àíè- çîòðîïíûì áèêâàäðàòè÷íûì îáìåííûì âçàèìî- äåéñòâèåì. Ôðèäìàí Þ.À., Êîñìà÷åâ Î.À., Êëåâåö Ô.Í. . . . . . . . . . . . . . . . 3 289 Interaction of strongly correlated electrons and acoustical phonons. Moskalenko V.A., En- tel P., and Digor D. . . . . . . . . . . . . 4/5 609 Âëèÿíèå óïðóãîé ïîäñèñòåìû íà ôàçîâûå ïå- ðåõîäû â ôåððîìàãíåòèêàõ ñ îáìåííîé è îäíî- èîííîé àíèçîòðîïèÿìè. Ôðèäìàí Þ.À., Êëåâåö Ô.Í., Ìàòþíèí Ä.À.. . . . . . . . . . . . 7 861 Ultrafast all-optical control of the magnetiza- tion in magnetic dielectrics. Kirilyuk A., Kimel A., Hansteen F., Pisarev R.V., and Rasing Th. . . . 8/9 985 75.30.Kz Ãðàíèöû ìàãíèòíûõ ôàç (âêëþ÷àÿ ìàãíèòíûå ïåðåõîäû, ìåòàìàãíåòèçì è ò.ä.) Ïðîöåññû çàðîäûøåîáðàçîâàíèÿ ïðè ñïèí- ïåðåîðèåíòàöèîííûõ ôàçîâûõ ïåðåõîäàõ â ðå- àëüíûõ êðèñòàëëàx. Âàõèòîâ Ð.Ì., Ãàðååâà Å.Ð., Âàõèòîâà Ì.Ì. . . . . . . . . . . . 2 169 Ôàçîâûå ïåðåõîäû â ôåððîìàãíåòèêå ñ àíè- çîòðîïíûì áèêâàäðàòè÷íûì îáìåííûì âçàèìî- äåéñòâèåì. Ôðèäìàí Þ.À., Êîñìà÷åâ Î.À., Êëåâåö Ô.Í. . . . . . . . . . . . . . . . 3 289 To the mean-field theory of a two-sublattice antiferromagnet. Zvyagin A.A. and Skoroba- gat’ko G.A. . . . . . . . . . . . . . . . . 7 845 Âëèÿíèå óïðóãîé ïîäñèñòåìû íà ôàçîâûå ïåðåõîäû â ôåððîìàãíåòèêàõ ñ îáìåííîé è îä- íîèîííîé àíèçîòðîïèÿìè. Ôðèäìàí Þ.À., Êëåâåö Ô.Í., Ìàòþíèí Ä.À. . . . . . . . . 7 861 Âëèÿíèå êèñëîðîäíîé íåñòåõèîìåòðèè íà êðè- ñòàëëè÷åñêóþ ñòðóêòóðó è ìàãíèòíûå ñâîéñòâà êàòèîí-äåôèöèòíûõ ìàíãàíèòîâ Pr0,9MnOx (2,85 < x < 2,90). Ìàíòûöêàÿ Î.Ñ., Êîëåñîâà È.Ì., Òðîÿí÷óê È.Î., Øèì÷àê Ã., Ñèðåíêî Â.À., Åðåìåíêî Â.Â.. . . . . . . . . . . . . . . 7 872 Ñòðóêòóðíûå ñâîéñòâà TmFeO3 â îáëàñòè ñïîíòàííîé ðåîðèåíòàöèè. Öûìáàë Ë.Ò., Êàìå- íåâ Â.È., Áàçàëèé ß.Á., Õàðà Ä.À., Âèãåí Ô.E. 8/9 1024 75.30.Vn Ãèãàíòñêîå ìàãíèòîñîïðîòèâëåíèå Comparison of pressure, magnetic field and excess manganese effects on transport properties of film and bulk ceramic La–Ca manganites. Mi- khaylov V.I., Dyakonov V.P., Zubov E.E., Pa- shchenko A.V., Varyukhin V.N., Shtaba V.A., Szewczyk A., Abal’oshev A., Piotrowski K., Dya- konov K., Lewandowski S.J., and Szymczak Í. 2 190 75.40.–s Ýôôåêòû â êðèòè÷åñêèõ òî÷êàõ, óäåëüíûå òåïëîåìêîñòè, áëèæíèé ïîðÿäîê Effect of doping on the magnetic ordering of quasi-one-dimensional antiferromagnets. Zvya- gin A.A. . . . . . . . . . . . . . . . . . 2 214 1610 Ôèçèêà íèçêèõ òåìïåðàòóð, 2006, ò. 32, ¹ 12 Ïpåäìåòíûé óêàçàòåëü òîìà 32 çà 2006 ãîä 75.40.Cx Ñòàòè÷åñêèå ñâîéñòâà (ïàðàìåòð ïî- ðÿäêà, ñòàòè÷åñêàÿ âîñïðèèì÷èâîñòü, òåïëîåì- êîñòè, êðèòè÷åñêèå èíäåêñû è ò.ä.) Íèçêîòåìïåðàòóðíûå ñâîéñòâà ñïèíîâîé XY- öåïî÷êè ñ ïðèìåñíûì ôðàãìåíòîì. Åçåðñêàÿ Å.Â., ×îâïàí À.À. . . . . . . . . . . . . . . . 10 1213 75.40.Gb Äèíàìè÷åñêèå ñâîéñòâà (äèíàìè÷å- ñêàÿ ÷óâñòâèòåëüíîñòü, ñïèíîâûå âîëíû, ñïèíî- âàÿ äèôôóçèÿ, äèíàìè÷åñêèé ñêåéëèíã è ò.ä.) Ýëåêòðîìàãíèòíîå âîçáóæäåíèå çâóêà â áî- ðàòå æåëåçà. Õèæíûé Â.È., Òàðàêàíîâ Â.Â., Êîðîëþê À.Ï., Õèæíàÿ Ò.Ì.. . . . . . . . 7 838 Ultrafast all-optical control of the magnetization in magnetic dielectrics. Kirilyuk A., Kimel A., Hansteen F., Pisarev R.V., and Rasing Th. . . . 8/9 985 Magnon excitations in vortex-state nanorings. Zaspel C.E., Owens J.W., and Ivanov B.A. . . 12 1493 75.47.–m Ìàãíèòîòðàíñïîðòíûå ÿâëåíèÿ; ìàòåðèàëû äëÿ ìàãíèòîòðàíñïîðòà Magnetic and transport properties of charge ordered La0.5Ca0.5MnO3 and La0.4Ca0.6MnO3 films. Prokhorov V.G., Komashko V.A., Kamin- sky G.G., Lee Y.P., Park S.Y., Hyun Y.H., Svetchnikov V.L., Kim K.W., and Rhee J.Y. . 2 176 Magnetic and electronic phase separation driven by structural clustering in La0.7(Ca1–ySry)0.3MnO3 thin films. Prokhorov V.G., Komashko V.A., Ka- minsky G.G., Lee Y.P., Hyun Y.H., Yu K.K., Park J.S., and Svetchnikov V.L. . . . . . . . 7 853 75.47.Gk Êîëîññàëüíîå ìàãíèòîñîïðîòèâëåíèå Êðèñòàëëîãðàôè÷åñêèå, ýëåêòðè÷åñêèå è ìàã- íèòíûå ñâîéñòâà ñèñòåìû La0,7Sr0,3Mn1–xFexO3. ßí÷åâñêèé Î.Ç., Òîâñòîëûòêèí À.È., Âüþíîâ Î.È., Áåëîóñ À.Ã. . . . . . . . . . . . . . 2 184 Ïåðåõîä ìåòàëë—äèýëåêòðèê, ìàãíèòîñîïðî- òèâëåíèå è ìàãíèòíûå ñâîéñòâà ñóëüôèäîâ 3d-ýëåìåíòîâ (Îáçîð). Àáðàìîâà Ã.Ì., Ïåòðà- êîâñêèé Ã.À. . . . . . . . . . . . . . . . 8/9 954 75.47.Lx Ìàíãàíèòû Êðèñòàëëîãðàôè÷åñêèå, ýëåêòðè÷åñêèå è ìàã- íèòíûå ñâîéñòâà ñèñòåìû La0,7Sr0,3Mn1–xFexO3. ßí÷åâñêèé Î.Ç., Òîâñòîëûòêèí À.È., Âüþíîâ Î.È., Áåëîóñ À.Ã. . . . . . . . . . . . . . 2 184 75.50.–ó Èçó÷åíèå êîíêðåòíûõ ìàãíèò- íûõ ìàòåðèàëîâ 75.50.Dd Íåìåòàëëè÷åñêèå ôåððîìàãíèòíûå ìàòåðèàëû Ñòðóêòóðíûå ñâîéñòâà TmFeO3 â îáëàñòè ñïîíòàííîé ðåîðèåíòàöèè. Öûìáàë Ë.Ò., Êà- ìåíåâ Â.È., Áàçàëèé ß.Á., Õàðà Ä.À., Âèãåí Ô.E. . . . . . . . . . . . . . . . . . . . 8/9 1024 75.50.Ee Àíòèôåððîìàãíåòèêè Ìàãíèòíûå ñâîéñòâà ñèíãëåòíîãî àíòèôåððî- ìàãíåòèêà KTb(WO4)2. Ëîãèíîâ À.À., Õàöüêî Å.Í., ×åðíûé À.Ñ., Áàóìåð Â.Í., Ðûêîâà À.È., Êàëèíèí Ï.Ñ., Ñóëüïèñ À. . . . . . . . . . 1 91 Ìàãíèòîðåçîíàíñíûå ñâîéñòâà íèçêîðàçìåðíîãî àíòèôåððîìàãíåòèêà Mn[C10H6(OH)(COO–)]2� �2H2O. Äåðãà÷åâ Ê.Ã., Êîáåö Ì.È., Õàöüêî Å.Í., Ëàíã Ì., Ïàùåíêî Â.À. . . . . . . . 3 306 Interaction of strongly correlated electrons and acoustical phonons. Moskalenko V.A., Entel P., and Digor D. . . . . . . . . . . . . . . . 4/5 609 To the mean-field theory of a two-sublat- tice antiferromagnet. Zvyagin A.A. and Skoroba- gat’ko G.A. . . . . . . . . . . . . . . . . 7 845 Ñòðóêòóðíûå ñâîéñòâà TmFeO3 â îáëàñòè ñïîíòàííîé ðåîðèåíòàöèè. Öûìáàë Ë.Ò., Êàìå- íåâ Â.È., Áàçàëèé ß.Á., Õàðà Ä.À., Âèãåí Ô.E. 8/9 1024 Ìàãíèòíûå è ðåçîíàíñíûå ñâîéñòâà cîåäèíåíèÿ (NH3)2(CH2)3CoCl4 — àíòèôåððî- ìàãíåòèêà ñ âçàèìîäåéñòâèåì Äçÿëîøèíñêîãî. ×åðíûé À.Ñ., Äåðãà÷åâ Ê.Ã., Êîáåö Ì.È., Õàöüêî Å.Í. . . . . . . . . . . . . . . . 10 1233 The temperature dependence of magnetic sus- ceptibility of solid oxygen. Je�owski A., Litwicki Z., Sumarokov V.V., and Stachowiak P. . . . 11 1422 75.50.Gg Ôåððèìàãíåòèêè Ñòðóêòóðíûå ñâîéñòâà TmFeO3 â îáëàñòè ñïîíòàííîé ðåîðèåíòàöèè. Öûìáàë Ë.Ò., Êàìå- íåâ Â.È., Áàçàëèé ß.Á., Õàðà Ä.À., Âèãåí Ô.E. 8/9 1024 75.60.–d Âëèÿíèå äîìåíîâ, êðèâûå íà- ìàãíè÷èâàíèÿ è ãèñòåðåçèñ Giant parametric amplification of the non- linear response in a single crystal of beryllium in a quantizing magnetic field. Tsindlekht M.I., Logoboy N., Egorov V.S., Kramer R.B.G., Jan- sen A.G.M., and Joss W. . . . . . . . . . . 8/9 1129 75.60.Ch Äîìåííûå ñòåíêè è äîìåííàÿ ñòðóê- òóðà Ïðîöåññû çàðîäûøåîáðàçîâàíèÿ ïðè ñïèí-ïå- ðåîðèåíòàöèîííûõ ôàçîâûõ ïåðåõîäàõ â ðåàëü- íûõ êðèñòàëëàx. Âàõèòîâ Ð.Ì., Ãàðååâà, Å.Ð., Âàõèòîâà Ì.Ì. . . . . . . . . . . . . . . 2 169 75.70.–i Ìàãíèòíûå ïëåíêè è ìíîãîñëîé- íûå ñòðóêòóðû Magnetic and transport properties of charge ordered La0.5Ca0.5MnO3 and La0.4Ca0.6MnO3 films. Prokhorov V.G., Komashko V.A., Kamin- sky G.G., Lee Y.P., Park S.Y., Hyun Y.H., Svetchnikov V.L., Kim K.W., and Rhee J.Y. . 2 176 Magnetic and electronic phase separation driven by structural clustering in La0.7(Ca1–ySry)0.3MnO3 thin films. Prokhorov V.G., Komashko V.A., Ka- minsky G.G., Lee Y.P., Hyun Y.H., Yu K.K., Park J.S., and Svetchnikov V.L. . . . . . . . 7 853 75.70.Ak Ìàãíèòíûå ñâîéñòâà ìîíîñëîåâ è òîíêèõ ïëåíîê Âëèÿíèå óïðóãîé ïîäñèñòåìû íà ôàçîâûå ïå- ðåõîäû â ôåððîìàãíåòèêàõ ñ îáìåííîé è îäíî- èîííîé àíèçîòðîïèÿìè. Ôðèäìàí Þ.À., Êëå- âåö Ô.Í., Ìàòþíèí Ä.À. . . . . . . . . . 7 861 Ôèçèêà íèçêèõ òåìïåðàòóð, 2006, ò. 32, ¹ 12 1611 Ïpåäìåòíûé óêàçàòåëü òîìà 32 çà 2006 ãîä 75.70.Kw Äîìåííàÿ ñòðóêòóðà (âêëþ÷àÿ ìàã- íèòíûå áàáëû) Àíäðååâñêàÿ ñïåêòðîñêîïèÿ òî÷å÷íûõ êîíòàê- òîâ íèçêîòåìïåðàòóðíûé ñâåðõïðîâîäíèê—ìàí- ãàíèò. Äüÿ÷åíêî À.È., Êðèâîðó÷êî Â.Í., Òà- ðåíêîâ Â.Þ. . . . . . . . . . . . . . . . 8/9 1085 75.70.Pa Ãèãàíòñêîå ìàãíèòîñîïðîòèâëåíèå Âëèÿíèå êèñëîðîäíîé íåñòåõèîìåòðèè íà êðèñòàëëè÷åñêóþ ñòðóêòóðó è ìàãíèòíûå ñâîé- ñòâà êàòèîí-äåôèöèòíûõ ìàíãàíèòîâ Pr0,9MnOx (2,85 < x < 2,90). Ìàíòûöêàÿ Î.Ñ., Êîëåñîâà È.Ì., Òðîÿí÷óê È.Î., Øèì÷àê Ã., Ñèðåíêî Â.À., Åðåìåíêî Â.Â. . . . . . . . . . . . . . . . 7 872 75.75.+a Ìàãíèòíûå ñâîéñòâà íàíîñòðóê- òóð Magnon excitations in vortex-state nanorings. Zaspel C.E, Owens J.W., and Ivanov B.A. . . 12 1493 75.80.+q Ìàãíèòîìåõàíè÷åñêèå è ìàãíè- òîýëåêòðè÷åñêèå ýôôåêòû, ìàãíèòîñòðèê- öèÿ Ìàãíèòîóïðóãàÿ ãåíåðàöèÿ ýëåêòðîìàãíèòíûõ ïîëåé çâóêîâîé âîëíîé â ñëàáûõ ôåððîìàãíåòè- êàõ. Êîëåñíè÷åíêî Þ.À., Ñòåïàíåíêî Ä.È. . . 3 301 Èçó÷åíèå îñîáåííîñòåé ìàãíèòîýëåêòðè÷å- ñêîãî ïîâåäåíèÿ ñåìåéñòâà ìóëüòèôåððîèêîâ RMn2O5 â ñèëüíûõ ìàãíèòíûõ ïîëÿõ (Îáçîð). Êàäîìöåâà À.Ì., Êðîòîâ Ñ.Ñ., Ïîïîâ Þ.Ô., Âîðîáüåâ Ã.Ï.. . . . . . . . . . . . . . . 8/9 933 76. Ìàãíèòíûå ðåçîíàíñû è ïðîöåññû ðåëàêñàöèè â êîíäåíñèðîâàííîé ñðå- äå; ýôôåêò Ìåññáàóýðà 76.20.+q Îáùàÿ òåîðèÿ ðåçîíàíñîâ è ðå- ëàêñàöèè Çàòóõàíèå ñïèíîâûõ âîëí ïðè ñïèí-îðèåíòà- öèîííûõ ôàçîâûõ ïåðåõîäàõ. Áàðüÿõòàð Â.Ã., Äàíèëåâè÷ À.Ã. . . . . . . . . . . . . . . 8/9 1010 76.30.–v Ýëåêòðîííûé ïàðàìàãíèòíûé ðå- çîíàíñ è ðåëàêñàöèÿ Ìàãíèòîðåçîíàíñíûå ñâîéñòâà íèçêîðàçìåðíîãî àíòèôåððîìàãíåòèêà Mn[C10H6(OH)(COO–)]2� �2H2O. Äåðãà÷åâ Ê.Ã., Êîáåö Ì.È., Õàöüêî Å.Í., Ëàíã Ì., Ïàùåíêî Â.À. . . . . . . . 3 306 76.30.Kg Ðåäêîçåìåëüíûå èîíû è ïðèìåñè Ìàãíèòíûå ñâîéñòâà ñèíãëåòíîãî àíòèôåððî- ìàãíåòèêà KTb(WO4)2. Ëîãèíîâ À.À., Õàöüêî Å.Í., ×åðíûé À.Ñ., Áàóìåð Â.Í., Ðûêîâà À.È., Êàëèíèí Ï.Ñ., Ñóëüïèñ À. . . . . . . . . . 1 91 76.50.+g Ôåððîìàãíèòíûé, àíòèôåððî- ìàãíèòíûé è ôåððèìàãíèòíûé ðåçîíàíñû Êðèñòàëëîãðàôè÷åñêèå, ýëåêòðè÷åñêèå è ìàã- íèòíûå ñâîéñòâà ñèñòåìû La0,7Sr0,3Mn1–xFexO3. ßí÷åâñêèé Î.Ç., Òîâñòîëûòêèí À.È., Âüþíîâ Î.È., Áåëîóñ À.Ã. . . . . . . . . . . . . . 2 184 Ìàãíèòîðåçîíàíñíûå ñâîéñòâà íèçêîðàçìåðíîãî àíòèôåððîìàãíåòèêà Mn[C10H6(OH)(COO–)]2� �2H2O. Äåðãà÷åâ Ê.Ã., Êîáåö Ì.È., Õàöüêî Å.Í., Ëàíã Ì., Ïàùåíêî Â.À. . . . . . . . 3 306 Ìàãíèòíûå è ðåçîíàíñíûå ñâîéñòâà cîåäè- íåíèÿ (NH3)2(CH2)3CoCl4 — àíòèôåððîìàãíåòè- êà ñ âçàèìîäåéñòâèåì Äçÿëîøèíñêîãî. ×åðíûé À.Ñ., Äåðãà÷åâ Ê.Ã., Êîáåö Ì.È., Õàöüêî Å.Í. 10 1233 76.60.–k ßäåpíûé ìàãíèòíûé påçîíàíñ è påëàêñàöèÿ Õàîòè÷åñêàÿ äèíàìèêà ÿäåðíîé íàìàãíè÷åí- íîñòè, îáóñëîâëåííàÿ ðåçîíàòîðíûìè ýôôåêòà- ìè. Óãóëàâà À.È., ×îòîðëèøâèëè Ë.Ë., Òîê- ëèêèøâèëè Ç.Ç., Ñàãàðàäçå À.Â. . . . . . . 10 1206 76.70.–r Äâîéíîé ìàãíèòíûé ðåçîíàíñ 76.70.Hb Îïòè÷åñêè äåòåêòèðîâàííûé ìàãíèò- íûé ðåçîíàíñ Spectroscopy of atomic and molecular defects in solid 4He using optical, microwave, rf, ma- gnetic and electric fields (Review Article). Mo- roshkin P., Hofer A., Ulzega S., and Weis A. . 11 1297 77. Äèýëåêòðèêè, ïüåçîýëåêòðèêè, ôåððîýëåêòðèêè è èõ ñâîéñòâà 77.84.–s Äèýëåêòðè÷åñêèå, ïüåçîýëåêòðè- ÷åñêèå è ñåãíåòîýëåêòðè÷åñêèå ìàòåðèàëû 77.84.Bw Ýëåìåíòû, îêñèäû, íèòðèäû, áîðè- äû, êàðáèäû, õàëüêîãåíèäû è äð. Ìàãíèòîóïðóãàÿ ãåíåðàöèÿ ýëåêòðîìàãíèò- íûõ ïîëåé çâóêîâîé âîëíîé â ñëàáûõ ôåððî- ìàãíåòèêàõ. Êîëåñíè÷åíêî Þ.À., Ñòåïàíåíêî Ä.È. . . . . . . . . . . . . . . . . . . . 3 301 78. Îïòè÷åñêèå ñâîéñòâà, ñïåêòðîñêî- ïèÿ êîíäåíñèpîâàííîé ñpåäû è âçàè- ìîäåéñòâèå èçëó÷åíèÿ è ÷àñòèö ñ âåùåñòâîì 78.20.–e Îïòè÷åñêèå ñâîéñòâà ìàññèâíûõ ìàòåðèàëîâ è òîíêèõ ïëåíîê 78.20.Ls Ìàãíèòîîïòè÷åñêèå ÿâëåíèÿ Ultrafast all-optical control of the magne- tization in magnetic dielectrics. Kirilyuk A., Ki- mel A., Hansteen F., Pisarev R.V., and Ra- sing Th. . . . . . . . . . . . . . . . . . 8/9 985 78.30.–j Èíôðàêðàñíûå è ðàìàíîâñêèå ñïåêòðû Ðåäêîçåìåëüíûå ôåððîáîðàòû RFe3(BO3)4 (Îáçîð). Âàñèëüåâ À.Í., Ïîïîâà Å.À. . . . . 8/9 968 Fourier transform infrared studies of the N2–O2 binary system. Minenko M. and Jodl H.-J. . . . 11 1382 Infrared study of high-pressure molecular pha- ses of carbon dioxide. Giordano Valentina M., Gorelli Federico A., and Bini Roberto. . . . . 11 1402 1612 Ôèçèêà íèçêèõ òåìïåðàòóð, 2006, ò. 32, ¹ 12 Ïpåäìåòíûé óêàçàòåëü òîìà 32 çà 2006 ãîä 78.30.Am Ýëåìåíòàðíûå ïîëóïðîâîäíèêè è èçîëÿòîðû Interaction of strongly correlated electrons and acoustical phonons. Moskalenko V.A., Entel P., and Digor D. . . . . . . . . . . . . . . . 4/5 609 78.30.Hv Äðóãèå íåìåòàëëè÷åñêèå íåîðãàíè÷å- ñêèå ìàòåðèàëû Low temperature mixed spin state of Co3+ in LaCoO3 evidenced from Jahn-Teller lattice dis- tortions. Gnezdilov V., Choi K.Y., Pashkevich Yu., Lemmens P., Shiryaev S., Bychkov G., Ba- rilo S., Fomin V., and Yeremenko A.V. . . . 2 219 78.47.+p Îïòè÷åñêàÿ ñïåêòðîñêîïèÿ ñ âðåìåííûì ðàçðåøåíèåì è äðóãèå óëüòðà- ñêîðîñòíûå îïòè÷åñêèå èçìåðåíèÿ â êîí- äåíñèðîâàííîì ñîñòîÿíèè Ultrafast all-optical control of the magne- tization in magnetic dielectrics. Kirilyuk A., Ki- mel A., Hansteen F., Pisarev R.V., and Ra- sing Th. . . . . . . . . . . . . . . . . . 8/9 985 78.55.–m Ôîòîëþìèíåñöåíöèÿ 78.55.Kz Òâåðäûå îðãàíè÷åñêèå ìàòåðèàëû Aspects of hole-burning and spectro-temporal holography in molecular doped solids (Review Article). Galaup Jean-Pierre. . . . . . . . . 11 1330 The physics of rotational tunneling: hole burn- ing spectroscopy of methyl groups. Somoza Mark M. and Friedrich Josef . . . . . . . . . . . 11 1345 Photoluminescence of ortho-bromobenzophe- none. Avdeenko A.A., Pyshkin O.S., Eremenko V.V., Strzhemechny M.A., Buravtseva L.M., and Romashkin R.V. . . . . . . . . . . . . . . 11 1355 78.55.Qr Àìîðôíûå ìàòåðèàëû; ñòåêëà è äðó- ãèå íåóïîðÿäî÷åííûå òâåðäûå òåëà Aspects of hole-burning and spectro-temporal holography in molecular doped solids (Review Article). Galaup Jean-Pierre. . . . . . . . . 11 1330 Spectroscopy of nanosized composites silicon- organic polymer/nanoporous silicas. Ostapenko N., Kozlova N., Suto S., and Watanabe A. . . 11 1363 78.60.–b Äðóãàÿ ëþìèíåñöåíöèÿ è èçëó- ÷àòåëüíàÿ ðåêîìáèíàöèÿ 78.60.Hk Êàòîäîëþìèíåñöåíöèÿ, èîíîëþìè- íåñöåíöèÿ Ãåòåðîãåííîå êëàñòåðîîáðàçîâàíèå â ñâåðõ- çâóêîâîé àðãîí-êðèïòîíîâîé ñòðóå ïî äàííûì êàòîäîëþìèíåñöåíöèè â ÂÓÔ îáëàñòè ñïåêòðà. Äîðîíèí Þ.Ñ., Áîíäàðåíêî Å.À., Ñàìîâàðîâ Â.Í. . . . . . . . . . . . . . . . . . . . 3 337 78.60.Kn Òåðìîëþìèíåñöåíöèÿ Oxygen-driven relaxation processes in pre- irradiated Ar cryocrystals. Savchenko E.V., Belov A.G., Gumenchuk G.B., Ponomaryov A.N., and Bondybey V.E. . . . . . . . . . . . . . . 11 1417 78.67.–n Îïòè÷åñêèå ñâîéñòâà íèçêîðàç- ìåðíûõ, ìåçîñêîïè÷åñêèõ è íàíîìåðíûõ ìàòåðèàëîâ è ñòðóêòóð 78.67.Bf Íàíîêðèñòàëëû è íàíî÷àñòèöû Characterization of ZnSe nanocrystals grown by vapor phase epitaxy. Tishchenko V.V. and Kovalenko A.V. . . . . . . . . . . . . . . 12 1545 78.67.De Êâàíòîâûå ÿìû Exciton condensation in quantum wells. Su- gakov V.I. . . . . . . . . . . . . . . . . 11 1449 79. Ýëåêòðîííîå è èîííîå èçëó÷åíèå æèäêîñòåé è òâåðäûõ òåë; ÿâëåíèå ñî- óäàðåíèÿ 79.60.–i Ôîòîýìèññèÿ è ôîòîýëåêòðîí- íûå ñïåêòðû ARPES on high-temperature superconductors: simplicity vs complexity. Kordyuk A.A. and Bo- risenko S.V.. . . . . . . . . . . . . . . . 4/5 401 79.60.Jv Ìåæôàçíûå ãðàíèöû, ãåòåðîñòðóêòó- ðû, íàíîñòðóêòóðû Spectroscopy of nanosized composites silicon- organic polymer/nanoporous silicas. Ostapenko N., Kozlova N., Suto S., and Watanabe A. . . 11 1363 79.75.+g Ýëåêòðîííîå èçëó÷åíèå Oxygen driven relaxation processes in pre-ir- radiated Ar cryocrystals. Savchenko E.V., Belov A.G., Gumenchuk G.B., Ponomaryov A.N., and Bondybey V.E. . . . . . . . . . . . . . . 11 1417 81. Ìàòåðèàëîâåäåíèå 81.05.–t Ñïåöèôè÷íûå ìàòåðèàëû: èçãî- òîâëåíèå, îáðàáîòêà, èñïûòàíèå, àíàëèç 81.05.Uw Óãëåðîä, àëìàç, ãðàôèò Î âîçìîæíîñòè íàáëþäåíèÿ â ãðàôåíå îáû÷- íîãî êâàíòîâîãî ýôôåêòà Õîëëà. Ãàéäèäåé Þ.Á., Ëîêòåâ Â.Ì. . . . . . . . . . . . . . . . 7 923 On the possible reason for superconductivity strengthening in multiwall carbon nanotubes. Gaididei Yu.B. and Loktev V.M. . . . . . . 11 1458 81.07.–b Íàíîìàòåðèàëû è ñòðóêòóðû: ñèíòåç è îïðåäåëåíèå õàðàêòåðèñòèê 81.07.Bc Íàíîêðèñòàëëè÷åñêèå ìàòåðèàëû Characterization of ZnSe nanocrystals grown by vapor phase epitaxy. Tishchenko V.V. and Kovalenko A.V. . . . . . . . . . . . . . . 12 1545 81.10.–h Ìåòîäû âûðàùèâàíèÿ êðèñòàë- ëîâ; ôèçèêà ðîñòà êðèñòàëëîâ 81.10.Aj Òåîðèÿ è ìîäåëè ðîñòà êðèñòàëëîâ; ôèçèêà ðîñòà êðèñòàëëîâ Ýëåêòðîíîãðàôèÿ äâóõêîìïîíåíòíûõ êëàñòå- ðîâ Ar—Kr: îñîáåííîñòè íóêëåàöèè, ìåõàíèç- ìîâ ðîñòà è ñòðóêòóðíûõ ñîñòîÿíèé. Äàíèëü- ÷åíêî À.Ã., Êîâàëåíêî Ñ.È., Ñàìîâàðîâ Â.Í. 12 1551 Ôèçèêà íèçêèõ òåìïåðàòóð, 2006, ò. 32, ¹ 12 1613 Ïpåäìåòíûé óêàçàòåëü òîìà 32 çà 2006 ãîä 81.15.–z Ìåòîäû îñàæäåíèÿ ïëåíîê è ïî- êðûòèé; ðîñò ïëåíîê è ýïèòàêñèÿ 81.15.Kk Ýïèòàêñèÿ èç ïàðîâîé ôàçû, ðîñò èç ïàðîâîé ôàçû Characterization of ZnSe nanocrystals grown by vapor phase epitaxy. Tishchenko V.V. and Kovalenko A.V. . . . . . . . . . . . . . . 12 1545 81.30.–t Ôàçîâûå äèàãðàììû è ìèêðî- ñòðóêòóðû, âîçíèêàþùèå ïðè çàòâåðäåâà- íèè è ôàçîâûõ ïåðåõîäàõ òâåðäîå òåëî— òâåðäîå òåëî Fourier transform infrared studies of the N2–O2 binary system. Minenko M. and Jodl H.-J. . . . 11 1382 Infrared study of high-pressure molecular pha- ses of carbon dioxide, Giordano Valentina M., Gorelli Federico A., and Bini Roberto. . . . . 11 1402 81.40.–z Îáðàáîòêà ìàòåðèàëîâ è åå âëèÿíèå íà ìèêðîñòðóêòóðó è ñâîéñòâà 81.40.Vw Îáðàáîòêà äàâëåíèåì Lattice distortion of quantum cryocrystals un- der pressure. Tretyak S.M., Antsygina T.N., and Freiman Yu.A. . . . . . . . . . . . . . . 11 1409 82. Ôèçè÷åñêàÿ õèìèÿ 82.30.–b Êîíêðåòíûå õèìè÷åñêèå ðåàêöèè; ìåõàíèçìû ðåàêöèé 82.30.Nr Ïðèñîåäèíåíèå, äîáàâëåíèå, âíåäðå- íèå, ôîðìèðîâàíèå êëàñòåðîâ Âîäîðîäíîñâÿçàííûå êîìïëåêñû 2-àìèíîïèðè- ìèäèí—ïàðàáåíçîõèíîí â àðãîíîâîé ìàòðèöå. Ïëîõîòíè÷åíêî À.Ì., Ñòåïàíüÿí Ñ.Ã., Àäàìîâè÷ Ë., Êàðà÷åâöåâ Â.À. . . . . . . . . . . . . 2 201 82.33.–z Ðåàêöèè â ðàçëè÷íûõ ñðåäàõ 82.33.Hk Ðåàêöèè íà êëàñòåðàõ The polymerization of acetylene on supported metal clusters. Gilb S., Arenz M., and Heiz U. 11 1441 82.65.+r Ïîâåðõíîñòíàÿ è ìåæôàçíàÿ õè- ìèÿ; ãåòåðîãåííûé êàòàëèç íà ïîâåðõíîñòè The polymerization of acetylene on supported metal clusters. Gilb S., Arenz M., and Heiz U. 11 1441 84. Ýëåêòðîíèêà, ðàäèîâîëíû è ìèê- ðîâîëíîâàÿ òåõíîëîãèÿ, ïðÿìàÿ êîí- âåðñèÿ è ñáåðåæåíèå ýíåðãèè 84.40.–x Ðàäèîâîëíîâàÿ è ìèêðîâîëíî- âàÿ (âêëþ÷àÿ ìèëëèìåòðîâûå âîëíû) òåõ- íîëîãèè 84.40.Dc Ìèêðîâîëíîâûå öåïè Microwave properties of HTS films: measure- ments in millimeter wave range. Cherpak N.T., Barannik A.A., Prokopenko Yu.V., Filipov Yu.F., and Vitusevich S.A. . . . . . . . . . . . . 6 795 85. Ýëåêòðîííûå è ìàãíèòíûå ïðèáî- ðû; ìèêðîýëåêòðîíèêà 85.25.–j Ñâåðõïðîâîäÿùèå ïðèáîðû Laser scanning microscopy of HTS films and devices (Review Article). Zhuravel A.P., Siva- kov A.G., Turutanov O.G., Omelyanchouk A.N., Anlage Steven M., Lukashenko A., Ustinov A.V., and Abraimov D. . . . . . . . . . . . . . 6 775 Adjustment of superconductivity and ferro- magnetism in the few-layered ferromagnet—su- perconductor nanostructures. Izyumov Y.A., Khu- sainov M.G., and Proshin Y.N. . . . . . . . 8/9 1065 85.25.Am Õàðàêòåðèñòèêè ñâåðõïðîâîäÿùèõ óñòðîéñòâ, êîíñòðóèðîâàíèå, ìîäåëèðîâàíèå Resonant effects in the strongly driven phase- biased Cooper-pair box. Shevchenko S.N. and Omelyanchouk A.N. . . . . . . . . . . . . 10 1282 85.25.Cp Äæîçåôñîíîâñêèå ïðèáîðû Rabi oscillations in systems with small an- harmonicity. Amin M.H.S. . . . . . . . . . 3 269 85.25.Dq Ñâåðõïðîâîäÿùèå êâàíòîâûå èíòåð- ôåðåíöèîííûå ïðèáîðû (ÑÊÂÈÄû) Ñòîõàñòè÷åñêèé ðåçîíàíñ â ñâåðõïðîâîäÿ- ùèõ êîíòóðàõ ñ êîíòàêòàìè Äæîçåôñîíà. ×èñ- ëåííûé ýêñïåðèìåíò. Ãëóõîâ À.Ì., Òóðóòàíîâ Î.Ã., Øíûðêîâ Â.È., Îìåëüÿí÷óê À.Í. . . . 12 1477 85.35.–p Íàíîýëåêòðîííûå óñòðîéñòâà 85.35.Gv Îäíîýëåêòðîííûå óñòðîéñòâà Îá ýôôåêòå ñòàáèëèçàöèè ïîëîæåíèÿ ìàã- íèòíîãî ðåçîíàíñà ñîãëàñîâàííûì ïîëåì. Èâàí÷åíêî Å.À., Òîëñòîëóæñêèé À.Ï. . . . . 1 103 85.70.–w Ìàãíèòíûå ïðèáîðû 85.70.Rp Ìàãíèòíàÿ ëåâèòàöèÿ, ïðîïóëüñèâ- íûå è êîíòðîëèðóþùèå ïðèáîðû Modern superconductive materials for electri- cal machines and devices working on the prin- ciple of levitation. Prikhna T.A. . . . . . . . 4/5 661 85.75.–d Ìàãíèòîýëåêòðîíèêà, ñïèíòðî- íèêà, óñòðîéñòâà, èñïîëüçóþùèå ñïèí-ïî- ëÿðèçîâàííûé òðàíñïîðò Adjustment of superconductivity and ferromag- netism in the few-layered ferromagnet—supercon- ductor nanostructures. Izyumov Y.A., Khusainov M.G., and Proshin Y.N. . . . . . . . . . . 8/9 1065 99.10.+g Èñïðàâëåíèÿ Èñïðàâëåíèÿ ê ñòàòüå Òîì÷åíêî Ìàêñèì «Èññëåäîâàíèå ñòðóêòóðû ñîñòàâíîãî êîíäåí- ñàòà äëÿ He-II ïðè T = 0» (ÔÍÒ 32, ¹ 1, 52 (2006)). . . . . . . . . . . . . . . . . . 3 371 1614 Ôèçèêà íèçêèõ òåìïåðàòóð, 2006, ò. 32, ¹ 12 Ïpåäìåòíûé óêàçàòåëü òîìà 32 çà 2006 ãîä

Пpедметный указатель тома 32 за 2006 год

Institution

Similar Items