В. Л. Гинзбург, “Сверхпроводимость: позавчера, вчера, сегодня, завтра”, УФН, 170:6 (2000), 619–630; Phys. Usp., 43:6 (2000), 573

Эта публикация цитируется в следующих 44 статьяx:

Yakov M. Strelniker, David J. Bergman, “Possibility of like-charged particles to attract each other at negative permittivity”, Phys. Rev. B, 110:8 (2024)
Dmitrii G. RODIONOV, Natal'ya G. VIKTOROVA, Elena S. VYLKOVA, Vladimir N. NAUMOV, Natal'ya V. POKROVSKAYA, “Risk assessment of the activities of IT organizations applying the general and simplified taxation systems”, FC, 30:11 (2024), 2450
V. R. Naumenko, S. V. Begicheva, D. M. Nazarov, “Management of the applicants' educational choice based on social network analysis of data from the Ural State University of Economics' admission committee”, DMAS, 2:3 (2023), 23
А. В. Садаков, О. А. Соболевский, В. М. Пудалов, “Что привело к изъятию статьи о комнатно-температурной сверхпроводимости из журнала “Nature”: череда оплошностей или фальсификация?”, УФН, 192:12 (2022), 1409–1412 ; A. V. Sadakov, O. A. Sobolevskiy, V. M. Pudalov, “What led to retraction of the article on room-temperature superconductivity in the journal Nature: a series of oversights or falsification?”, Phys. Usp., 65:12 (2022), 1313–1316
Victor Dmitrievich Lakhno, Mathematical foundations of the translation-invariant bipolaron theory of superconductivity, 2021
В. Д. Лахно, “Трансляционно-инвариантные биполяроны и сверхпроводимость”, Препринты ИПМ им. М. В. Келдыша, 2020, 009, 75 с.
Lakhno V.D., “Translational-Invariant Bipolarons and Superconductivity”, Condens. Matter, 5:2 (2020), 30
Lakhno V.D., “Superconducting Properties of 3D Low-Density Translation-Invariant Bipolaron Gas”, Adv. Condens. Matter Phys., 2018, 1380986
Shneider A.G., Kuz'mina A.S., Yur'ev M.Yu., “Anomalous Diamagnetism of Heterostructures Superconductor Phase: Electron Density Waves of High-Temperature Superconductors (Hts) Achieved By Vacuum Treatment Below Critical Temperature”, Physica C, 550 (2018), 35–38
В. Д. Лахно, “Сверхпроводящие свойства 3D–газа ТИ–биполяронов низкой плотности”, Препринты ИПМ им. М. В. Келдыша, 2018, 029, 25 с.
Paul M. Grant, “Superconducting fluctuations in one-dimensional quasi-periodic “metallic” chains: the Little model of room-temperature superconductivity embodied”, Quantum Stud.: Math. Found., 5:1 (2018), 83
V. I. Berezkin, “Ecological safety in the context of new technologies of power generation and achievements of fundamental science in the field of superconductivity”, Regecology, 52:2 (2018), 103
Kovalenko A.N., “High-temperature superconductivity: From macro- to nanoscale structures”, Nanosyst.-Phys. Chem. Math., 7:6 (2016), 941–970
S. N. Sazonov, “Effect of a superconducting coating on the equilibrium state of a system of two concentric ferromagnetic spheres placed in a magnetic field”, Tech. Phys, 60:2 (2015), 309
Grigore Munteanu, “The Origin of the Unusual Electrocatalytical Properties of the Mercury Monolayer Carbon Fiber Electrode - the New Two Dimensional Mercury Phase - a Superconducting/Superfluidic Bose–Einstein Condensate at Room Temperature”, Electrochimica Acta, 2015
M. V. Nozhenkov, “Influence of structure on the ultralow friction of layered coatings deposited via ion-beam sputtering”, J. Synch. Investig, 9:3 (2015), 518
M. V. Nozhenkov, “Structure and properties of vacuum ion-plasma coatings”, J. Synch. Investig, 8:1 (2014), 50
S. N. Sazonov, “On a hollow superconducting sphere in a magnetic field”, Tech. Phys, 58:7 (2013), 1080
Toshikazu Ekino, Alexander M. Gabovich, Mai Suan Li, Marek Pȩkała, Henryk Szymczak, Alexander I. Voitenko, “d-Wave Superconductivity and s-Wave Charge Density Waves: Coexistence between Order Parameters of Different Origin and Symmetry”, Symmetry, 3:4 (2011), 699
Е. Г. Максимов, “О Гинзбурге–Ландау и немного о других”, УФН, 180:11 (2010), 1231–1237 ; E. G. Maksimov, “Ginzburg–Landau and a bit on others”, Phys. Usp., 53:11 (2010), 1185–1190