Oleg V. Snigirev

Oleg V. Snigirev

Devices based on LTS and HTS
Head of the Laboratory, Professor, Head of the Semiconductors division

ISTINA
P: +7 (495) 939-30-00
3-79

Publications

Porokhov, N., Kalabukhov, A., Chukharkin, M., Maresov, A., Khrykin, D., Klenov, N., and Snigirev, O. The physical basis of the fabrication of the third generation of high-temperature superconducting wires on quartz substrates.љMOSCOW UNIVERSITY PHYSICS BULLETIN 70, 2 (2015), 134?139. [љDOIљ]

Порохов, Н., Калабухов, А., Чухаркин, М., Маресов, А., Хрыкин, Д., Кленов, Н., иљСнигирев, О. Физические основы технологии создания высокотемпературных сверхпроводящих проводов третьего поколения на кварцевых подложках.љВестник Московского университета. Серия 3. Физика, астрономия, 2 (2015), 56?61.љURLљ]

Dagesyan, S., Stepanov, A., Soldatov, E., and Snigirev, O. Properties of extremely narrow gaps between electrodes of a molecular transistor.љJournal of Superconductivity and Novel Magnetismљ(2014). [љDOIљ]

Gerasimov, Y., Shorokhov, V., and Snigirev, O. Electron transport through thiolized gold nanoparticles in single-electron transistor.љJournal of Superconductivity and Novel Magnetismљ(2014), 1?6. [љDOIљ]

Сhukharkin, M., Kalaboukhov, A., Schnaiderman, J., Oisjoen, F., Jonsson, M., Xie, M., Snigirev, O., Winkler, D. Novel hts dc squid solutions for nmr applications. InљProceedings of the NATO Advanced Research Workshop on Magnetic Resonance Detection of Explosives and Ilicit Materials, NATO Science for Peace and Security Series B: Physics and Biophysics, pp.љ151?159. [љDOIљ]

Snigirev, O., Chukharkin, M., Porokhov, N., Rusanov, S., Kashin, V., Tsvetkov, V., Kalabukhov, A., and Winkler, D. Pulsed laser deposition of thin ybco films on faceted ysz single crystal fibers.љJournal of Physics:Conference Series 507, PART 2 (2014). [љDOIљ]

Blinova, Y., Kuznetsov, M., Galakhov, V., Sudareva, S., Krinitsina, T., Kuznetsova, E., Degtyarev, M., Snigirev, O., and Porokhov, N. X-ray photoelectron spectra and composition of yba2cu3o7 - ? films prepared by laser ablation.љPhysics of the Solid State 56, 4 (2014), 659?665. [љDOIљ]

Сhukharkin, M., Kalaboukhov, A., Schnaiderman, J., Oisjoen, F., Jonsson, M., Xie, M., Snigirev, O., Winkler, D. Novel hts dc squid solutions for nmr applications. InљProceedings of the NATO Advanced Research Workshop on Magnetic Resonance Detection of Explosives and Ilicit Materials, NATO Science for Peace and Security Series B: Physics and Biophysics, Dordrecht, Netherlands, 3311GZ, pp.љ151?159. [љDOIљ]

Титова, С., Черепанова, Л., Блинова, Ю., Сударева, С., Дегтярев, М., Кузнецова, Е., Снигирев, О., иљПорохов, Н. Термическая устойчивость пленокљYBa2Cu3O7-?, напыленных на текстурованные подложки Ni-W методом лазерной абляции.љФизика Твердого Тела 55, 8 (2013), 1500?1503.љ[љURLљ]

Chukharkin, M., Kalabukhov, A., Schneiderman, О., ?isj?en, F., Magnus, J., Xie, M., Snigirev, O., and Winkler, D.љљImprovement of ultra-low field magnetic resonance recordings with a multilayer flux-transformer-based high-tc squid magnetometer.љIEEE Transactions on Applied Superconductivity 23, 3 (2013), 1602704?1?1602704?4. [љDOIљ]

Трифонов, А., Васильев, Р., Езубченко, И., Соколикова, М., Бритов, Д., Преснов, Д.,љиљСнигирев, О. Исследование электронных свойств одиночных нанокристаллов СdTe и CdTe/CdSe в сканирующем туннельном микроскопе.љРадиотехника, 5 (2013), 35?40.љ[љURLљ]

Криницина, Т., Сударева, С., Блинова, Ю., Кузнецова, Е., Романов, Е., Дегтярев, М., Снигирев, О., Прохоров, Н., Раков, Д., иљБелотелова, Ю. Структурное состояние образцов ВТСП проводников второгопоколения, полученных методом лазерной абляции.љФизика Твердого Тела 55, 2 (2013), 227?233.љ[љURLљ]

Чухаркин, М., Порохов, Н., Калабухов, А., Снигирев, О., Русанов, С., Кашин, В., Цветков, В., иљВинклер, Д. Высокотемпературные сверхпроводящие пленки на фасетированных монокристалических нитях.љЖурнал радиоэлектроники (электронный журнал), 2 (2013), 1?13.љ[љURLљ]

Герасимов, Я., Шорохов, В., Маресов, А., Солдатов, Е., иљСнигирев, О. Исследование связи энергетических спектров молекул с транспортными характеристиками одноэлектронных транзисторов на их основе.љЖурнал радиоэлектроники (электронный журнал), 2 (2013).љ[љURLљ]

Stepanov, A., Soldatov, E., and Snigirev, O. Fabrication of integrated electrodes of molecular transistor by lithographic techniques and electromigration. InљProc. SPIE 8700, International Conference Micro- and Nano-Electronics 2012љ(2013), pp.љ87000C?1?87000C?5. [љDOIљ]

Gerasimov, Y., Shorokhov, V., Soldatov, E., and Snigirev, O. Gold nanoparticle single-electron transistor simulation. InљProc. SPIE 8700, International Conference Micro- and Nano-Electronics 2012, 870015љ(2013).љDOIљ]

Езубченко, И., Трифонов, А., Осадько, И., Прохорова, И., Снигирев, О., иљСолдатов, Е. Оптическое излучение нанокристаллов CdSe под действием туннельного тока сканирующего туннельного микроскопа.љИзвестия РАН. Серия физическая 76, 12 (2012), 1465?1467.

Porokhov, N., Levin, E., Chukharkin, M., Rakov, D., Vorob'eva, A., Varlashkin, A., and Snigirev, O. High-temperature superconducting films on flexible substrates for flux transformers.љJournal of Communications Technology and Electronics 57, 10 (2012), 1130?1137. [љDOIљ]

Порохов, Н., Левин, Э., Чухаркин, М., Раков, Д., Воробьева, А., Варлашкин, А., иљСнигирев, О. Высокотемпературные сверхпроводящие пленки на гибких подложках для трансформатора магнитного потока.љРадиотехника и электроника 57, 7 (2012), 1128?1138. [љDOIљ]

Trifonov, A., Osad?ko, I., Ezubchenko, I., Prokhorova, I., and Snigirev, O. Electroluminescence of single cdse nanocrystals induced by scanning tunneling microscope.љOptics Communications 285, 7 (2012), 1997?2000. [љDOIљ]

Chukharkin, M., Kalabukhov, A., Schneiderman, J., Oisjoen, F., Snigirev, O., Lai, Z., and Winkler, D. Noise properties of high-T-c superconducting flux transformers fabricated using chemical-mechanical polishing.љApplied Physics Letters 101, 4 (2012). [љDOIљ]

Gerasimov, Y.љS., Shorokhov, V., Maresov, A., Soldatov, E., and Snigirev, O. Calculation of the mutual capacitance of nanoobjects.љJournal of Communications Technology and Electronics 56, 12 (2011), 1483?1489.

Герасимов, Я., Шорохов, В., Маресов, А., Солдатов, Е., and Снигирев, О. Расчет взаимной емкости нанообъектов.љРадиотехника и электроника 56, 12 (2011), 1483?1489.

Fukumoto, S., Hayashi, M., Katsu, Y., Suzuki, M., Morita, R., Naganuma, Y., Hatsukade, Y., Tanaka, S., and Snigirev, O. Liquid-state nuclear magnetic resonance measurements for imaging using hts-rf-squid in ultra-low field.љIEEE Transactions on Applied Superconductivity 21, 3 (2011), 522?525. [љDOIљ]

Snigirev, O., Hayashi, M., Fukumoto, S., Hatsukade, Y., Katsu, Y., and Tanaka, S. Development of ultra low field nuclear magnetic resonance imaging system using hts rf squid.љJournal of Superconductivity and Novel Magnetism 24, 1-2 (2011), 1033?1036. [љDOIљ]

Stepanov, A., Soldatov, E., and Snigirev, O. Implementation of molecular transistor electrodes by electromigration.љJournal of Superconductivity and Novel Magnetism 24, 1-2 (2011), 1087?1093. [љDOIљ]

Stepanov, A., Soldatov, E., and Snigirev, O. Formation of molecular transistor electrodes by electromigration. InљProc. SPIEљ(2010), vol.љ7521, pp.љ752112?1?752112?8. [љDOIљ]

Gerasimov, Y., Shorokhov, V., Soldatov, E., and Snigirev, O. Calculation of the characteristics of electron transport through molecular clusters.љProceedings of SPIE - The International Society for Optical Engineering 7521љ(2010), 75210U?1?75210U?11. [љDOIљ]

Burmistrov, E., Maslennikov, Y.љV., Slobodchikov, V., Khanin, V., and Snigirev, O. High-sensitivity gradiometer based on three high-t-c squid magnetometers.љJournal of Communications Technology and Electronics 55, 9 (2010), 1070?1075.

Burmistrov, E.љV., Slobodchikov, V., Khanin, V., Maslennikov, Y.љV., and Snigirev, O. Dc squid modulation electronics for operation with hts dc squid magnetometers in the unshielded environment.љIEEE Transactions on Applied Superconductivity 19, 3 (2009), 206?209.љDOIљ]

Volkov, I., Snigirev, О., Maresov, A., Volkov, A., Torii, Y., and Tanaka, S. Squid-based relaxometric diagnostic of magnetic nanoparticles.љSolid State Phenomena, 2009, vol. 152-153, pp.217-220 152љ(2009), 217?220. [љDOIљ]

Burmistrov, E., Slobodchikov, V., Khanin, V., Maslennikov, Y.љV., and Snigirev, O. Modulation squid electronics working with high-t (c) squids in open space.љJournal of Communications Technology and Electronics 53, 10 (2008), 1259?1265.љ[љDOIљ]

Kalabukhov, A., Chukharkin, M., Deleniv, A., Winkler, D., Volkov, I., and Snigirev, O. Analysis of the possibility to amplify an rf signal with a superconducting quantum interference filter.љJournal of Communications Technology and Electronics 53, 8 (2008), 934?940.љ[љDOIљ]

Volkov, I., Chukharkin, M., Snigirev, O., Volkov, A., Tanaka, S., and Fourie, C. Determination of the anisotropy constant and saturation magnetization of magnetic nanoparticles from magnetization relaxation curves.љJ. Nanopart. Res 10, 3 (2008), 487?497. [љDOIљ]

Varlashkin, A., Krasnosvobodtsev, S., Chukharkin, M., Snigirev, O., Tsikunov, A., and Shabanova, N. Deposition of smooth high-t-c superconducting films with a solid-state yag : Nd3+ laser.љTechnical Physics 52, 5 (2007), 660?662.љ[љDOIљ]

Snigirev, O.љV., Chukharkin, M.љL., Kalabukhov, A.љS., Tarasov, M.љA., Deleniv, A.љA., Mukhanov, O.љA., and Winkler, D. Superconducting quantum interference filters as rf amplifiers.љIEEE Transactions on Applied Superconductivity 17, 2 (2007), 718?721.љ[љDOIљ]

Burmistrov, E., Dmitriev, P., Tarasov, M., Kalabukhov, A., Kovtonyuk, S., Gudoshnikov, S., Snigirev, O., Kuz?min, L., and Koshelets, V. A planar picoamperemeter based on a superconducting quantum interferometer.љJournal of Communications Technology and Electronics 51, 11 (2006), 1319?1324.љ[љDOIљ]

Volkov, I., Gudoshnikov, S., Usov, N., Volkov, A., Moskvina, M., Maresov, A., Snigirev, О., and Tanaka, S. Squid-measurements of relaxation time of Fe3O4 superparamagnetic nanoparticle ensembles.љJournal of Magnetism and Magnetic Materials 300љ(2006), e294?e297. [љDOIљ]

Volkov, I., Chukharkin, M., Snigirev, O., Volkov, A., Moskvina, M., Gudoshnikov, S., and Kerimov, A. Hts squid microscopy for measuring the magnetization relaxation of magnetic nanoparticles.љIEEE Transactions on Applied Superconductivity 15, 3 (2005), 3874?3878.

Andreenko, S., Snigirev, O., Maresov, A., Muck, M., and Scholz, F. A new software for the processing of squid-microscopy images.љIEEE Transactions on Applied Superconductivity 15, 2 (2005), 692?695.

Shorokhov, V., Soldatov, E., and Snigirev, O. Theoretical study of characteristics of a molecular single-electron transistor.љThin Solid Films 464љ(2004), 445?451.љљ[љDOIљ]

Tarasov, M., Kalabukhov, A., Kovtonyuk, S., Lapitskaya, I., Gudoshnikov, S., Kiviranta, M., Snigirev, O., Kuz?min, L., and Seppa, H. A femtoamperemeter based on a superconducting quantum interferometer and a bulk transformer.љJournal of Communications Technology and Electronics 48, 12 (2003), 1404?1409.

Volkov, I., Chuharkin, M., Snigirev, O., and Ranchinski, M. Yba2cu3ox submicron josephson junctions on bicrystal substrates.љIEEE Transactions on Applied Superconductivity 13, 2 (2003), 861?864.љ[љDOIљ]

Kalaboukhov, A., Tarasov, M., Lohmns, A., Ivanov, Z., and Snigirev, O. Properties of a high-t-c dc squid radiofrequency amplifier.љIEEE Transactions on Applied Superconductivity 13, 2 (2003), 1039?1041.љ[љDOIљ]

Gudoshnikov, S., Liubimov, B., Matveets, L., Snigirev, O., Maresov, A., Prokoshin, A., Borisov, V., and Usov, N. Study of amorphous ferromagnetic microwires using a scanning squid microscope.љPhysica C: Superconductivity and its Applications 372љ(2002), 271?273.љ[љDOIљ]

Gudoshnikov, S., Liubimov, B., Deryuzhkina, Y., Matveets, L., Snigirev, O., Kalabukhov, A., Ranchinski, M., Schmidl, F., and Seidel, P. Hts scanning squid microscope with high spatial resolution for room temperature samples.љPhysica C: Superconductivity and its Applications 372љ(2002), 166?169.љ[љDOIљ]

Kalabukhov, A., Tarasov, M., Stepantsov, E., Gevorgian, S., Deleniv, A., Ivanov, Z., Snigirev, O., Vendik, O., and Mukhanov, O. A high-t-c l-band squid amplifier combined with superconductive thin-film filters.љPhysica C: Superconductivity and its Applications 368, 1-4 (2002), 171?175.љ[љDOIљ]

Gudoshnikov, S., Liubimov, B., Matveets, L., Mikhailenko, A., Deryuzhkina, Y., Sitnov, Y., and Snigirev, O. Flux guide for high-t-c squid microscope with high spatial resolution.љPhysica C: Superconductivity and its Applications 368, 1-4 (2002), 66?69.љ[љDOIљ]

Tishin, A., Snigirev, O., Khomutov, G., Gudoshnikov, S., and Bohr, J. Magnetic volcanos in gadolinium langmuir-blodgett films.љJournal of Magnetism and Magnetic Materials 234, 3 (2001), 499?504.љ[љDOIљ]

Volkov, I., Kalabukhov, A., Snigirev, O., Zherikhin, A., and Mavrin, B. Carbon masks for the fabrication of submicron yba2cu3ox bridges and josephson junctions.љJournal of Communications Technology and Electronics 46, 7 (2001), 822?825.

Gudoshnikov, S., Matveets, L., Migulin, V., Snigirev, O., and Tishin, A. High-resolution scanning magnetometry based on a superconducting quantum interferometer.љJournal of Communications Technology and Electronics 46, 7 (2001), 729?740.

Volkov, I., Kalabukhov, A., Snigirev, O., and Zherikhin, A. Carbon masks for patterning of yba2cu3ox submicron josephson junctions.љIEEE Transactions on Applied Superconductivity 11, 1 (2001), 292?295.љ[љDOIљ]

Gudoshnikov, S., Rudenchik, P., Matveets, L., Snigirev, O., Liubimov, B., Perov, N., Gan'shina, E., Antonov, A., D'achkov, A., and Sedova, M. Squid microscope for magnetic structure visualization in magnetoimpedance elements.љIEEE Transactions on Applied Superconductivity 11, 1 (2001), 223?225. [љDOIљ]

Gudoshnikov, S., Deryuzkina, Y., Rudenchik, P., Sitnov, Y., Bondarenko, S., Shablo, A., Pavlov, P., Kalabukhov, A., Snigirev, O., and Seidel, P. Magnetic flux guide for high-resolution squid microscope.љIEEE Transactions on Applied Superconductivity 11, 1 (2001), 219?222.љ[љDOIљ]

Tarasov, M., Kalabukhov, A., Snigirev, O., Krasnosvobodtsev, S., and Stepantsov, E. Uhf amplifier based on a high-t-c dc squid with a microstrip input coupler.љJournal of Communications Technology and Electronics 45, 9 (2000), 1033?1037.

Kirichenko, D., Pavolotskii, A., Prokhorova, I., and Snigirev, O. Characteristics of a thin-film sensor for a scanning squid microscope.љTechnical Physics 44, 7 (1999), 839?843.

Gudoshnikov, S., Matveets, L., Weidl, R., Dorrer, L., Seidel, P., Krasnosvobodtsev, S., Kalabukhov, A., and Snigirev, O. A direct readout high-t-c dc squid electronics with ac bias and a liquid-nitrogen-cooled preamplifier.љIEEE Transactions on Applied Superconductivity 9, 2 (1999), 4397?4399.љ[љDOIљ]

Kirichenko, D., Pavolotskij, A., Prokhorova, I., Snigirev, O., Mezzena, R., Vitale, S., Maslennikov, Y., and Beljaev, A. Advanced version of two stage dc squid-based amplifier.љIEEE Transactions on Applied Superconductivity 9, 2 (1999), 2906?2908.љ[љDOIљ]

Gudoshnikov, S., Kalabukhov, A., Chupakhin, S., Tishin, A., Snigirev, O., Bohr, J., Muck, M., Heiden, C., and Dechert, J. Magnetic properties of ho measured by a scanning squid microscope.љIEEE Transactions on Applied Superconductivity 9, 2 (1999), 4385?4388.љ[љDOIљ]

Snigirev, O. Super-sensitive squid magnetometry.љUspekhi Fizicheskikh Nauk 169, 2 (1999), 221?223.

Snigirev, O., Tishin, A., Andreev, K., Gudoshnikov, S., and Bohr, J. Magnetic properties of ultrathin ni films.љPhysics of the Solid State 40, 9 (1998), 1530?1533.