Personal card

Talantsev Evgenii Fedorovich

PhD (Physics and Mathematics)

Senior researcher (Laboratory of Precision Alloys and Intermetallic Compounds)

Contact information:
Phone.: 378-36-13
Email: evgeny.talantsev@imp.uran.ru

Scientometric data (as of 20.08.2024):
Web of Science: h-index - 20; Sum of the Times Cited - 1249
SCIENCE INDEX: h-index - 21; Sum of the Times Cited - 1587
Personal pages of the author in the systems: Researcher ID, SCIENCE INDEX

Papers

1) Author Correction: Magnetic flux trapping in hydrogen-rich high-temperature superconductors [Текст] / V.S. Minkov, V. Ksenofontov, S.L. Bud’ko, E.F. Talantsev, M.I. Eremets // Nature Physics. — 2025. — V. 21. — P. 1 (2 pages)

2) Formation of long-period ordered CuAuII phase in the non-stochiometric Cu-56 at% Au alloy [Текст] / O.S. Novikova, E.F. Talantsev, P.O. Podgorbunskaya, A.Yu. Volkov // Physics of the Solid State. — 2024. — V. 66. — P. 1589 (7 pages)

3) Comment on “Nonstandard superconductivity or no superconductivity in hydrides under high pressure” [Текст] / E.F. Talantsev, V. S. Minkov, F. F. Balakirev, and M. I. Eremets // Physical Review B. — 2024. — V. 110. — P. 186501 (8 pages)

4) London penetration depth in amorphous and crystalline Re–Lu films: Comment on ‘Superconductivity of amorphous and crystalline Re–Lu films’(Teknowijoyo and Gulian 2024 Supercond. Sci. Technol. 37 035005) [Текст] / E.F. Talantsev // Superconductor Science and Technology. — 2024. — V. 37. — P. 128001 (5 pages)

5) Формирование длиннопериодной упорядоченной фазы CuAuII в нестехиометрическом сплаве Cu-56at% Au [Текст] / О.С. Новикова, Е.Ф. Таланцев, П.О. Подгорбунская, А.Ю. Волков // Физика твёрдого тела. — 2024. — V. 66. — P. 1662 (7 pages)

6) Debye temperature, electron-phonon coupling constant, and three-dome shape of crystalline strain as a function of pressure in highly compressed La3Ni2O7−δ [Текст] / E.F. Talantsev, V.V. Chistyakov // Letters on Materials. — 2024. — V. 14. — P. 262 (7 pages)

7) The A-15-type superconducting hydride La4H23: a nanograined structure with low strain, strong electron-phonon interaction, and a moderate level of nonadiabaticity [Текст] / E.F. Talantsev, V.V. Chistyakov // Superconductor Science and Technology. — 2024. — V. 37. — P. 95016 (20 pages)

8) Evidences for d-wave symmetry of c-axis superconducting gap in atomically thin twisted flakes of bismuth-based HTS cuprates [Текст] / E.F. Talantsev // Physica C. — 2024. — V. 623. — P. 1354549 (8 pages)

9) Advanced modelling tool to extract the structural state boundaries from the hardness-strain experiments [Текст] / L.M. Voronova, T.I. Chashchukhina, E.F. Talantsev, M.V. Degtyarev, T.M. Gapontseva // International Journal of Refractory Metals and Hard Materials. — 2024. — V. 122. — P. 106719 (10 pages)

10) In-Field Transport Critical Currents in Superhydride Superconductors: Highly-Compressed CeH9 [Текст] / E.F. Talantsev // IEEE Transactions on Applied Superconductivity. — 2024. — V. 34. — P. 7400304 (4 pages)

11) Erratum: “The electron–phonon coupling constant and the Debye temperature in polyhydrides of thorium, hexadeuteride of yttrium, and metallic hydrogen phase III” [J. Appl. Phys. 130(19), 195901 (2021)] [Текст] / E. F. Talantsev // Journal of Applied Physics. — 2023. — V. 134. — P. 179901 (1 pages)

12) Quantifying interaction mechanism in infinite layer nickelate superconductors [Текст] / E. F. Talantsev // Journal of Applied Physics. — 2023. — V. 134. — P. 113904 (16 pages)

13) Magnetic flux trapping in hydrogen-rich high-temperature superconductors [Текст] / V.S. Minkov, V. Ksenofontov, S.L. Bud’ko, E.F. Talantsev, M.I. Eremets // Nature Physics. — 2023. — V. 19. — P. 1293 (8 pages)

14) Quantifying the Nonadiabaticity Strength Constant in Recently Discovered Highly Compressed Superconductors [Текст] / E.F. Talantsev // Symmetry. — 2023. — V. 15. — P. 1632 (19 pages)

15) Characteristic Length for Pinning Force Density in Nb3Sn [Текст] / E.F. Talantsev, E.G. Valova-Zaharevskaya, I.L. Deryagina, E.N. Popova // Materials. — 2023. — V. 16. — P. 5185 (14 pages)

16) Intrinsic coherence length anisotropy in nickelates and some iron-based superconductors [Текст] / E.F. Talantsev // Materials. — 2023. — V. 16. — P. 4367 (21 pages)

17) D-Wave Superconducting Gap Symmetry as a Model for Nb1−xMoxB2 (x = 0.25; 1.0) and WB2 Diborides [Текст] / E. F. Talantsev // Symmetry. — 2023. — V. 15. — P. 812 (20 pages)

18) Quantifying Nonadiabaticity in Major Families of Superconductors [Текст] / E.F. Talantsev // Nanomaterials . — 2023. — V. 13. — P. 71 (14 pages)

19) The Compliance of the Upper Critical Field in Magic-Angle Multilayer Graphene with the Pauli Limit [Текст] / E.F. Talantsev // Materials. — 2023. — V. 16. — P. 256 (13 pages)

20) New Scaling Laws for Pinning Force Density in Superconductors [Текст] / E.F. Talantsev // Condensed Matter. — 2022. — V. 7. — P. 74 (32 pages)

21) Fermi-Liquid Nonadiabatic Highly Compressed Cesium Iodide Superconductor [Текст] / E. F. Talantsev // Condensed Matter. — 2022. — V. 7. — P. 65 (10 pages)

22) Corrigendum: Thermodynamic parameters of atomically thin superconductors derived from the upper critical field (2022 Supercond. Sci. Technol. 35 084007) [Текст] / E.F. Talantsev // Superconductor Science and Technology. — 2022. — V. 35. — P. 99501 (2 pages)

23) Universal Fermi velocity in highly compressed hydride superconductors [Текст] / E.F. Talantsev // Matter and Radiation at Extremes. — 2022. — V. 7. — P. 58403 (8 pages)

24) Electron–phonon coupling constant and BCS ratios in LaH10−y doped with magnetic rare-earth element [Текст] / E.F. Talantsev // Superconductor Science and Technology. — 2022. — V. 35. — P. 95008 (6 pages)

25) Thermodynamic parameters of atomically thin superconductors derived from the upper critical field [Текст] / E.F. Talantsev // Superconductor Science and Technology. — 2022. — V. 35. — P. 84007 (13 pages)

26) Method to extracting the penetration field in superconductors from DC magnetization data [Текст] / E.F. Talantsev // Review of Scientific Instruments. — 2022. — V. 93. — P. 53912 (15 pages)

27) A disorder-sensitive emergent vortex phase identified in high-Tc superconductor (Li,Fe)OHFeSe [Текст] / D. Li, P. Shen, J. Tian, G. He, S. Ni, Z. Wang, C. Xi, L. Pi, H. Zhang, J. Yuan, K. Jin, E.F. Talantsev, L. Yu, F. Zhou, J. Hänisch, X. Dong, Z. Zhao // Superconductor Science and Technology. — 2022. — V. 35. — P. 64007 (7 pages)

28) Classifying Charge Carrier Interaction in Highly Compressed Elements and Silane [Текст] / E.F. Talantsev // Materials. — 2021. — V. 14. — P. 4322 (11 pages)

29) The electron-phonon coupling constant, Fermi temperature and unconventional superconductivity in the carbonaceous sulfur hydride 190 K superconductor [Текст] / E.F. Talantsev // Superconductor Science and Technology. — 2021. — V. 34. — P. 34001 (7 pages)

30) Resistive transition of hydrogen-rich superconductors [Текст] / E.F. Talantsev, K. Stolze // Superconductor Science and Technology. — 2021. — V. 34. — P. 64001 (14 pages)

31) Quantifying the Charge Carrier Interaction in Metallic Twisted Bilayer Graphene Superlattices [Текст] / Evgueni F. Talantsev // Nanomaterials . — 2021. — V. 11. — P. 1306 (15 pages)

32) Superconductivity emerging from a stripe charge order in IrTe2 nanoflakes [Текст] / S. Park, S.Y. Kim, H.K. Kim, M.J. Kim, T. Kim, H. Kim, G.S. Choi, C. J. Won, S. Kim, K. Kim, E.F. Talantsev, K. Watanabe, T. Taniguchi, S.-W. Cheong, B.J. Kim, H.W. Yeom, J. Kim, T.-H. Kim, J.S. Kim // Nature Communications. — 2021. — V. 12. — P. 3157 (8 pages)

33) Comparison of highly-compressed C2/m-SnH12 superhydride with conventional superconductors [Текст] / E.F. Talantsev // Journal of Physics: Condensed Matter. — 2021. — V. 33. — P. 285601 (9 pages)

34) Cooper pair trajectories in superconducting slab at self-field conditions [Текст] / E.F. Talantsev, R.C. Mataira // Modern Physics Letters B. — 2021. — V. 35. — P. 2150226 (8 pages)

35) Piecewise Model with Two Overlapped Stages for Structure Formation and Hardening upon High-Pressure Torsion [Текст] / E.F. Talantsev, M.V. Degtyarev, T.I. Chashchukhina, L.M. Voronova, V.P. Pilyugin // Metallurgical and Materials Transaction A. — 2021. — V. 52. — P. 4510 (8 pages)

36) The dominance of non-electron–phonon charge carrier interaction in highly-compressed superhydrides [Текст] / E.F. Talantsev // Superconductor Science and Technology. — 2021. — V. 34. — P. 115001 (16 pages)

37) The electron–phonon coupling constant and the Debye temperature in polyhydrides of thorium, hexadeuteride of yttrium, and metallic hydrogen phase III [Текст] / E.F. Talantsev // Journal of Applied Physics. — 2021. — V. 130. — P. 195901 (13 pages)

38) Advanced McMillan's equation and its application for the analysis of highly-compressed superconductors [Текст] / E.F. Talantsev // Superconductor Science and Technology. — 2020. — V. 33. — P. 94009 (23 pages)

39) Classifying superconductivity in ThH-ThD superhydrides/superdeuterides [Текст] / E.F. Talantsev, R.C. Mataira // Materials Research Express. — 2020. — V. 7. — P. 16003 (8 pages)

40) Unconventional superconductivity in highly-compressed unannealed sulphur hydride [Текст] / E.F. Talantsev // Results in Physics. — 2020. — V. 16. — P. 1029932 (4 pages)

41) Classifying superconductivity in an infinite-layer nickelate Nd0.8Sr0.2NiO2 [Текст] / E.F. Talantsev // Results in Physics. — 2020. — V. 17. — P. 103118 (5 pages)

42) In-plane p-wave coherence length in iron-based superconductors [Текст] / E. F. Talantsev // Results in Physics. — 2020. — V. 18. — P. 103339 (10 pages)

43) Anisotropy of flux pinning properties in superconducting (Li,Fe)OHFeSe thin films [Текст] / J. Haenisch, Y. Huang, D. Li, J. Yuan, K. Jin, X. Dong, E. Talantsev, B. Holzapfel, Z. Zhao // Superconductor Science and Technology. — 2020. — V. 33. — P. 114009 (8 pages)

44) An approach to identifying unconventional superconductivity in highly-compressed superconductors [Текст] / E.F. Talantsev // Superconductor Science and Technology. — 2020. — V. 33. — P. 124001 (11 pages)

45) Double-valued strong-coupling corrections to Bardeen–Cooper–Schrieffer ratios [Текст] / E.F. Talantsev // Superconductor Science and Technology. — 2020. — V. 33. — P. 124003 (10 pages)

46) Classifying superconductivity in Moiré graphene superlattices [Текст] / E.F. Talantsev, R.C. Mataira, W.P Crump // Scientific Reports. — 2020. — V. 10. — P. 212 (15 pages)

47) DC Self-Field Critical Current in Superconductor/Dirac-Cone Material/Superconductor Junctions [Текст] / E.F. Talantsev // Nanomaterials . — 2019. — V. 9. — P. 1554 (15 pages)

48) The onset of dissipation in high-temperature superconductors: flux trap, hysteresis and in-field performance of multifilamentary Bi2Sr2Ca2Cu3O10+x wires [Текст] / E.F. Talantsev, J. Brooks // Materials Research Express. — 2019. — V. 6. — P. 26002 (10 pages)

49) Normal state interlayer conductivity in epitaxial Nd2–xCexCuO4 films deposited on SrTiO3 (110) single crystal substrates [Текст] / M.R. Popov, A.S. Klepikova, T.B. Charikova, E.F. Talantsev, N.G. Shelushinina, A.A. Ivanov // Materials Research Express. — 2019. — V. 6. — P. 96005 (7 pages)

50) Classifying hydrogen-rich superconductors [Текст] / E.F. Talantsev // Materials Research Express. — 2019. — V. 6. — P. 106002 (12 pages)

51) Classifying Induced Superconductivity in Atomically Thin Dirac-Cone Materials [Текст] / Evgueni F. Talantsev // Condensed Matter. — 2019. — V. 4. — P. 83 (16 pages)

52) p-wave superconductivity in iron-based superconductors [Текст] / E. F. Talantsev, K. Iida, T. Ohmura, T. Matsumoto, W. P. Crump, N. M. Strickland, S. C. Wimbush & H. Ikuta // Scientific Reports. — 2019. — V. 9. — P. 14245 (13 pages)

53) Angular dependence of the upper critical field in randomly restacked 2D superconducting nanosheets [Текст] / E F Talantsev // Superconductor Science and Technology. — 2019. — V. 32. — P. 15013 (5 pages)

54) Classifying superconductivity in compressed H3S [Текст] / E.F. Talantsev // Modern Physics Letters B. — 2019. — V. 33. — P. 1950195 (15 pages)

55) Evaluation of a practical level of critical current densities in pnictides and recently discovered superconductors [Текст] / E.F. Talantsev // Superconductor Science and Technology. — 2019. — V. 32. — P. 84007 (14 pages)

56) The onset of dissipation in high-temperature superconductors: magnetic hysteresis and field dependence [Текст] / E. F. Talantsev, N. M. Strickland, S. C. Wimbush, J. Brooks, A. E. Pantoja, R. A. Badcock, J. G. Storey, J. L. Tallon // Scientific Reports. — 2018. — V. 8. — P. 14463 (14 pages)

57) Формирование упорядоченной структуры в сплаве 40Au-25.4Pd-34.6Cu [Текст] / А.Ю. Волков, Е.Ф. Таланцев, О.С. Новикова, А.В. Глухов, К.Н. Генералова, Б.Д. Антонов // Физика металлов и металловедение. — 2018. — V. 119. — P. 1286 (7 pages)

58) Formation of an ordered structure in the 40Au-25.5Pd-34.6Cu alloy [Текст] / A.Yu. Volkov, E.F. Talantsev, O.S. Novikova, A.V. Glukhov, K.N. Generalova, B.D. Antonov // Physics of Metals and Metallography. — 2018. — V. 119. — P. 1222 (7 pages)

59) Weak-links criterion for pnictide and cuprate superconductors [Текст] / E.F. Talantsev, W.P. Crump // Superconductor Science and Technology. — 2018. — V. 31. — P. 124001 (7 pages)

Reports

1) П.О.Подгорбунская, Кинетика формирования упорядоченной фазы CuAuII в нестехиометрическом сплаве Cu-56(aт) %Au [Текст] / П.О.Подгорбунская, А.Ю.Волков, О.С.Новикова, Е.Ф.Таланцев // XXIV Всеросс. школа-семинар по проблемам физики конденсированного состояния вещества (СПФКС-24), посвященная 100-летию со дня рождения Е.А. Турова, 20.03.2025, 2025 / 978-5-6052052-0-3, Тезисы докладов, г. Екатеринбург: ИФМ УрО РАН, 2025

2) Е.Ф.Таланцев, Сверхсжатые гидриды: параметры сверхпроводящего состояния, известные на данный момент [Текст] / Е.Ф.Таланцев // Научная конф. «Современные сверхпроводящие материалы, технологии и устройства», 15.05.2024, 2024 / 0

3) E.F.Talantsev, Superconducting parameters of highly compressed hydrides deduced from experiment [Текст] / E.F.Talantsev // 16th European Conf. on Applied Superconductivity (EUCAS2023), 07.09.2023, 2023 / 0, 0

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4) Е.Ф.Таланцев, Сверхпроводимость в сверхсжатых соединениях водорода [Текст] / Е.Ф.Таланцев // XXIV Уральская международная зимняя школа по физике полупроводников (UIWSPS-2022), 14-19 февраля, 2022 / Тез.докл.-Екатеринбург:ИФМ УрО РАН

5) E.F.Talantsev, Classifying superconductivity in magic-angle twisted bilayer graphene superlattices [Текст] / E.F.Talantsev, R.C.Mataira, W.P.Crump // 33rd Intern. Symp. on Superconductivity (ISS 2020) Virtual Conference, 1-3 декабря, 2020 / Тез.не изд.

6) E.F.Talantsev, The self-field critical current, the superfluid density and the upper critical field in iron-based superconductors: p-wave scenario [Текст] / E.F.Talantsev, K.Iida // 2020 Applied Superconductivity Conference (ASC 2020) virtual conf.\rnull, 24 октября-7 ноября, 2020 / Не изд.

7) E.F.Talantsev, Classifying highly-compressed superhydride superconductors [Текст] / E.F.Talantsev // Тринадцатое ежегодное заседание Научного Совета по физике конденсированных сред при отделении физических наук РАН и Научно-практический семинар «Актуальные проблемы физики конденсированных сред», 23-26 ноября , 2020 / Труды конференции.-Москва:ИФТТ РАН

8) M.R.Popov, Semiconducting type of interlayer conductivity in Nd2-xCexCuO4 single-crystal films near AFM-SC phase transition [Текст] / M.R.Popov, A.S.Klepikova, T.B.Charikova, E.F.Talantsev, N.G.Shelushinina, A.Ivanov // XXIII Международный симпозиум «Нанофизика и наноэлектроника», 11-14 марта, 2019 / Труды симп.-Нижний Новгород: Изд-во Нижегородского госуниверситета

9) E.F.Talantsev, Classifying superconductivity in compressed H3S [Текст] / E.F.Talantsev // UK-Russia scientific workshop «Materials under extreme conditions», 12-13 марта, 2019 / Тез. не изд.

10) E.F.Talantsev, Classifying superconductivity in magic angle twisted bilayer graphene [Текст] / E.F.Talantsev, R.C.Mataira, W.P.Crump // VII Euro-Asian Symp. «Trends in MAGnetism» (EASTMAG-2019), 8-13 сентября, 2019 /