Position:

 

Senior Researcher

Brief information:

 

Nataliya A.Tulina has been working in the ISSP RAS since the year 1968 after graduated the Radio Physics faculty of  the Moscow Institute fo Physics and Engineering.

An 1978 defended a thesis on “Influence of crystal lattice defects on superconductivity in rhenium”.

Since the year 1985 holds the position of senior researcher of the ISSP RAS. A specialist in the field of superconductivity, tunnel and point- contact spectroscopy, electron transport. In the last 5 years has been engaged in studies of problems of phase separation in strongly correlated systems such as high temperature superconductors and doped manganites.

Scientific interests:

 

Fast stage of research activity of Nataliya A.Tulina covered superconductivity mechanisms in metals, alloys, A-15 compounds, Shevrel phases :

  • influence of crystal lattice defects on transport and thermodynamic properties of metals and compounds
  • electron- phonon interaction, its transformation in defective structures, connected with the Eliashberg function and superconductive state.

Since the year 1987 has been concerned studies of problem connecting with mechanism of superconductivity in high temperature superconductors.

In the year 1995 revealed  the effect of electron instability in heterojunctions on the base of high temperature superconductors (HTSC). Further   studies have been shown that the related perovskite structures – doped manganites (system of colossal magnetoresistance) also exibit similar effects. The effect shows up in reproducible and polar switching of phase state in heterocontacts on the base of HTSC and doped manganites under the action of electric current, the occurrence of so-called colossal electroresistance.

 

Mailing address:

 

Institute of Solid State Physics RAS, 143432, Chernogolovka, Moscow district, Russia

Fax:

 

7-496-524-4421

Список трудов  Н.А.Тулиной

 

 1.Н.Е.Алексеевский,М.И.Михеева,Н.А.Тулина, ЖЭТФ 52 (1967) 875.

    «Сверхпроводящие свойства рения»

 2.T.V.Kopetskii, M.M.Mishlyaev, N.I.Novochatskai, N.A.Tulina, V.A.Yuhanov

   phys.stat.sol.(a),16 (1973) 307.

“Critical Temperature of Superconducting Transition in plastically Deformed Rhenium Single Crystal”.

3. Н.А.Тулина, Н.И.Новохатская, ФНТ 11 (1975) 27.

   «Критическая температура сверхпроводящего перехода и электрон- фононное взаимодействие в пластически деформированном рении.»

4. Н.А.Тулина, ФНТ 2 (1976) 1444.

   «Температурная зависимость сопротивления монокристаллического рения и влияние на нее пластической деформации». ФНТ 3 (1977) 1256.

5. Н.А.Тулина, В.М. Половов,Н.М.Гаврилов,

   «Влияние пластической деформации на низкотемпературную теплоемкость рения».

6. Н.А.Тулина,ФММ 50 (1980) 747.

   «Влияние чистоты рения на его магнитные свойства в сверхпроводящем состоянии».

7. Н.А.Тулина, Л.А. Матвеева, SSC 36(1980) 609.

   «Аномальная зависимость критического магнитного поля вблизи Тс в свинцово-молибденовых фазах Шевреля».

8. N.A.Tulina, SSC 41(1982) 313.

  «Point-contact spectroscopy of renium single crystal”.

9. Н.А.Тулина, А.Н.Добрецов, Ю.А.Туфлин, ПТЭ 3 (1982) 136.

  «Чувствительный мост для получения вольт- амперных характеристик.»

10. Н.А.Тулина, Металлофизика 4 (1982) 116.

    «Микроконтактная спектроскопия монокристаллического рения».

11. Н.А.Тулина, ФНТ 9 (1983) 499.

   «Микроконтактная спектроскопия сплавов Re- Os, Re- W

12.В.А.Антонов,И.Г.Белаш,В.Ю.Малышев,Е.Г.Понятовский,Н.А.Тулина,

   ДАН, 269 (1983) 617.

  «Растворимость водорода в рении при давлении до 90 кбар.»

13. N.A.Tulina, SSC 51(1984) 573.

   «Singularities V3Si point- contact spectra”.

14. Н.А.Тулина, ФНТ 11 (1985) 270.

   «Микроконтактная спектроскопия ненасыщенных окислов и проблема нулевых аномалий в микроконтактной спектроскопии.»

15.Yu.Shtikov, N.A.Tulina, M.G.Zemlyanov, phys.stat.sol.(a),133 (1986) 469.

   “Spectial Features of Lattice Dynamics and Electron- Phonon Interaction in Re”.

16. Н.А.Тулина, Бородин В.А., Кондаков С.Ф.,Чернышова Л.И.,Письма в ЖЭТФ 46 (1987)71.

«Исследование микроконтактов из керамики YBaCuO».

17. Н.А.Тулина, М.А.Куземченко, ФНТ 13 (1987) 563.

«Микроконтактная спектроскопия гетероконтактов в сверхпроводящем и нормальном состояниях».

18.Г.А.Емельченко, П.А.Кононович, Н.А.Тулина, ФНТ 14 (1988) 738.

«Исследование микроконтактов из монокристаллов YBa2Cu3O7-x в туннельном и металлическом режиме».

19. N.A.Tulina, Physica C 161 (1989) 262.

 “Determination of the energy gap in a thin YBa2Cu3O7-x film by Andreev reflaction and by tunneling”.

19. Н.А.Тулина, Сверхпроводимость 2 (1989) 5.

«Туннельная и микроконтактная спектроскопия высокотемпературных сверхпроводников.»

20.N.A.Tulina,S.V,Zaitsev,M.P.Kulakov,R.K.Nikolaev,N.S.Sidorov,A.S.Nigmatulin,G.S   Karabashev,Physica C 171 (1990) 103.

“Investigation of point- contacts of fresh cleavages from Bi2Sr2CaCu2O8 single crystals”.

21.N.A.Tulina,S.V,Zaitsev,G.A.Emel’chenkoM.P.Kulakov,N.N.Kolesnikov,N.S.Sidorov, “Investigation of the energy gap and phonon structure in tunneling junctions of the Bi2Sr2CaCu2O8 single crystal cleavages”. Physica C 194 (1992) 370.

22. N.A.Tulina,S.V,Zaitsev, SSC 86 (1993) 55.

«Point-contact spectroscopy study of qusilocal vibrations in molybdenum- rhenium alloys”.

23. N.A.Tulina, Physica C 225 (1994) 157.

“Failure of spectrometric regime of a point- contact and the problem of observation of the Andreev reflaction in HTSC”.

24. N.A.Tulina,S.V,Zaitsev,G.A. Emel’chenkoM.P.Kulakov, Physica C 248 (1995) 359.

“Effect of a barrier on the anomalous tunneling propertieis of the high- temperature superconductors”.

25.N.A.Tulina,G.A.Emel’chenko,A.V.Kulakov,

 “Electric field and current- induced effects on tunnel spectra of Bi2Sr2CaCu2O8 single crystal junctions”. Physics Letters A 204 (1995) 74.

26.N.A.Tulina,

«Point-contact investigation of resistive properties of normal metal- high temperature superconductor boundary”.Physics Letters A211(1996) 74.

27. N.A.Tulina

“ Zero- bias anomalies and current states in point- contacts of  Bi2Sr2CaCu2O8-y”.  Physica C 315 (1999) 107.

28. Komissinskii F.V., Ovsyannikov G.A., Tulina N.A., et al.

“Current transport along the [001] axis of YBCO in low-temperature superconductor-normal metal-high-temperature superconductor heterostructures”.

J EXP THEOR PHYS 89: (1999) 1160.

29.N.A.Tulina,

«Bi-stable current state and phase separation of a degradeded Bi2Sr2CaCu2O8+y  single crystal surface.» Physica C 333 (2000) 214.

30. N. A.Tulina, А.М.Ionov, А.N.Chaika , 

 “ Reversible electrical switching at the Bi2Sr2CaCu2O8+y surface in the normal metal- Bi2Sr2CaCu2O8+y single crystal heterojunction.” Physica C 366/1 (2001) 23.

31. Tulina N.A., Zver'kov S.A., Mukovskii Y.M., et al.

“Current switching of resistive states in normal-metal manganite single-crystal point contacts”.EUROPHYS LETT 56: (2001) 836.

32. Barkov FL, Vinnikov LY, Tulina NA, et al.

Observation of the magnetic structure in manganites by the high-resolution Bitter technique”.EUROPHYS LETT 61 (2003) 242.

33. Tulina N.A., Zver'kov S.A., Arsenov A, et al.

“Reproducible switching in normal metal-manganite single crystal point contacts with memory effect”. PHYSICA C 385: (2003) 563.

34.Tulina N.A., V.V.Sirotkin

"Electron instability in doped-manganites-based heterojunctions”.

PHYSICA C 400 (2004) 105.

35. A.N.Chaika, A.M.Ionov, N.A.Tulina, D.A.Shulyatev, and Ya.M.Mukovskii

  Degradation of La0.8Ca0.2MnO3 single crystal surface: electron spectroscopy studies.”

Journ.Electron Spectroscopy and Related Phenomenon 148 (2005) 101.

 36.N.A.Tulina, L.S.Uspenskaya,Y. M. Mukovskii, D.A Shulyatev

“Percolative transition in doped manganite single crystals: resistive and magneto- optics studies”. 

       Izvestiya RAN,  70 (2006)1045.

37. N.A.Tulina, L.S.Uspenskaya,V.V.Sirotkin,Y. M. Mukovskii, D.A Shulyatev

Intrisic ingomogeneities and effects of resistive switchings in doped manganites.”

  Physica C 444 (2006) 19.