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Избранные публикации

Dagesyan, S.A., Shorokhov, V.V., Presnov, D.E., Soldatov, E.S., Trifonov, A.S., Krupenin, V.A., and Snigirev, O.V. Single-electron transistor with island formed by several dopant phosphorus atoms. Moscow University Physics Bulletin 72, 5 (2017), 474–479. [ DOI ]

Trifonov, A.S., Presnov, D.E., Bozhev, I.V., Evplov, D.A., Desmaris, V., and Krupenin, V.A. Non-contact scanning probe technique for electric field measurements based on nanowire field-effect transistor. Ultramicroscopy 179 (2017), 33–40. [ DOI ]

Presnova, G., Presnov, D., Krupenin, V., Grigorenko, V., Trifonov, A., Andreeva, I., Ignatenko, O., Egorov, A., and Rubtsova, M. Biosensor based on a silicon nanowire field-effect transistor functionalized by gold nanoparticles for the highly sensitive determination of prostate specific antigen. Biosensors and Bioelectronics 88 (2017), 283–289. [ DOI ]

Dagesyan, S.A., Shorokhov, V.V., Presnov, D.E., Soldatov, E.S., Trifonov, A.S., and Krupenin, V.A. Sequential reduction of the silicon single-electron transistor structure to atomic scale. Nanotechnology 28 (2017), 225304. [ DOI ]

Shorokhov, V.V., Presnov, D.E., Amitonov, S.V., Pashkin, Y.A., and Krupenin, V.A. Single-electron tunneling through an individual arsenic dopant in silicon. Nanoscale 9 (2017), 613–620. [ DOI ]

Trifonov, A., Lubenchenko, A., Polkin, V., Pavolotsky, A., Ketov, S., and Louzguine-Luzgin, D. Difference in charge transport properties of ni-nb thin films with native and artificial oxide. Journal of Applied Physics 117 (2015), 125704–1–125704–5. [ DOI ]

Kornev, V., Sharafiev, A., Soloviev, I., and Mukhanov, O. Signal and noise characteristics of bi-squid. Superconductor Science and Technology 27 (2014), 115009. [ DOI ]

Trifonov, A., Ovchenkov, Y., Presnov, D., Belosludov, R., Boltalin, A., Liu, M., Morozov, I., Nejo, H., and Vasiliev, A. Scanning tunneling microscopy study of morphology and electronic properties. Journal of Applied Physics 116 (2014), 043904. [ DOI ]

Presnov, D.E., Amitonov, S.V., Krutitskii, P.A., Kolybasova, V.V., Devyatov, I.A., Krupenin, V.A., and Soloviev, I.I. A highly ph-sensitive nanowire field-effect transistor based on silicon on insulator. Beilstein journal of nanotechnology 4 (2013), 330–335. [ DOI ]

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. Applied Physics Letters 101, 4 (2012). [ DOI ]

Sharafiev, A., Soloviev, I., Kornev, V., Schmelz, M., Stolz, R., Zakosarenko, V., Anders, S., and Meyer, H. Bi-squids with submicron cross-type josephson tunnel junctions. Superconductor Science and Technology 25, 4 (2012), 45001–45005. [ DOI ]

Kornev, V., Soloviev, I., Klenov, N., and Mukhanov, O. Bi-squid: a novel linearization method for dc squid voltage response. Superconductor Science and Technology 22, 11 (2009), 114011. [ DOI ]

Shadrin, A., Constantinian, K., Ovsyannikov, G., Shitov, S., Soloviev, I., Kornev, V., and Mygind, J. Fraunhofer regime of operation for superconducting quantum interference filters. Applied Physics Letters 93, 26 (2008). [ DOI ]

Komissinskiy, P., Ovsyannikov, G., Constantinian, K., Kislinski, Y., Borisenko, I., Soloviev, I., Kornev, V., Goldobin, E., and Winkler, D. High-frequency dynamics of hybrid oxide josephson heterostructures. Physical Review B - Condensed Matter and Materials Physics 78, 2 (2008). [ DOI ]

Kornev, V., Soloviev, I., Klenov, N., and Mukhanov, O. Synthesis of high-linearity array structures. Superconductor Science and Technology 20, 11 (2007), S362–S366. [ DOI ]

Koksharov, Y. A., Khomutov, G., Soldatov, E., Suyatin, D., Maximov, I., Montelius, L., and Carlberg, P. Magnetostatic interactions in planar ring-like nanoparticle structures. Thin Solid Films 515, 2 SPEC. ISS. (2006), 731–734. [ DOI ]

Kornev, V., Soloviev, I., Klenov, N., and Mukhanov, O. Splitting circuits for a single-flux-quantum-pulse driver based on a superconducting quantum interference filter. Superconductor Science and Technology 19, 5 (2006), S390–S393. [ DOI ]

Guo, X., Dong, Z., Trifonov, A., Miki, K., Kimura, K., and Mashiko, S. Stm-induced light emission from the surface of h2tbp porphyrin/pfp porphyrin/cu(100). Applied Surface Science 241, 1-2 (2005), 28–32. [ DOI ]

Shorokhov, V., Soldatov, E., and Snigirev, O. Theoretical study of characteristics of a molecular single-electron transistor. Thin Solid Films 464 (2004), 445–451.  [ DOI ]

Kornev, V., Soloviev, I., Oppenlaender, J., Haeussler, C., and Schopohl, N. The oscillation linewidth and noise characteristics of a parallel superconducting quantum interference filter. Superconductor Science and Technology 17, 5 (2004), S406–S409. [ DOI ]

Kornev, V., Klenov, N., Oboznov, V., Feofanov, A., Bol'ginov, V., Ryazanov, V., and Pedersen, N. Vortex dynamics in josephson ladders with pi-junctions. Superconductor Science and Technology 17, 5 (2004), S355–S358. [ DOI ]

Khomutov, G., Gainutdinov, R., Gubin, S., Kislov, V., Khanin, V., Rakhnyanskaya, A., Sergeev-Cherenkov, A., Soldatov, E., Suyatin, D., Taranov, I., and Tolstikhina, A. Organized planar nanostructures from ligand-stabilized nanoclusters: A route to molecular nanoelectronic devices. Applied Surface Science 226, 1-3 SPEC. ISS. (2004), 149–154. [ DOI ]

Guo, X., Dong, Z., Trifonov, A., Mashiko, S., and Okamoto, T. Role of molecules in tunneling-current-induced photon emission from the surface of a perinone derivative molecular monolayer on au(100). Physical Review B - Condensed Matter and Materials Physics 68, 11 (2003). [ DOI ]

Khomutov, G., Belovolova, L., Gubin, S., Khanin, V., Obydenov, A., Sergeev-Cherenkov, A., Soldatov, E., and Trifonov, A. Stm study of morphology and electron transport features in cytochrome c and nanocluster molecule monolayers. Bioelectrochemistry 55, 1-2 (2002), 177–181. [ DOI ]

Gubin, S., Gulayev, Y. V., Khomutov, G., Kislov, V., Kolesov, V., Soldatov, E., Sulaimankulov, K., and Trifonov, A. Molecular clusters as building blocks for nanoelectronics: the first demonstration of cluster set transistor at room temperature. Nanotechnology 13 (2002), 185–194. [ DOI ]

Shorokhov, V., Johansson, P., and Soldatov, E. Simulation of characteristics of a molecular single-electron tunneling transistor with a discrete energy spectrum of the central electrode. Journal of Applied Physics 91, 5 (2002), 3049–3053. [ DOI ]

Krupenin, V., Zorin, A., Presnov, D., Savvateev, M., and Niemeyer, J. Metallic single-electron transistor without traditional tunnel barriers. Physics Uspekhi 44, Supplement 171 (10) (2001), 113–116. [ DOI ]

Arutyunov, K., Pekola, J., Pavolotski, A., and Presnov, D. Nonlocality in superconducting microstructures. Physical Review B - Condensed Matter and Materials Physics 64, 6 (2001), 064519–1–064519–6. [ DOI ]

Krupenin, V., Zorin, A., Savvateev, M., Presnov, D., and Niemeyer, J. Single-electron transistor with metallic microstrips instead of tunnel junctions. Journal of Applied Physics 90, 5 (2001), 2411–2415. [ DOI ]

Gubin, S., Kislov, V., Kolesov, V., Soldatov, E., and Trifonov, A. The molecular cluster-materials for nanoelectronics. Nature Materials 12, 5-8 (1999), 1131–1134. [ DOI ]

Arutyunov, K., Presnov, D., Lotkhov, S., Pavolotski, A., and Rinderer, L. Resistive-state anomaly in superconducting nanostructures. Physical Review B - Condensed Matter and Materials Physics 59, 9 (1999), 6487–6498. [ DOI ]

Krupenin, V., Lotkhov, S., Scherer, H., Zorin, A., Weimann, T., Ahlers, F., Niemeyer, J., and Wolf, H. Charging and heating effects in a system of coupled single-electron devices. Physical Review B - Condensed Matter and Materials Physics 59, 16 (1999), 10778–10784. [ DOI ]

Giersig, M., Mamedov, A., Nagesha, D., Yakovenko, S., Soldatov, E., Khanin, V., Trifonov, A., and Kotov, N. One- and two-dimensional arrays of magnetic nanoparticles by langmuir-blodgett technique. Advanced Materials 11, 5 (1999), 388–392. [ DOI ]

Khomutov, G., Soldatov, E., Gubin, S., Yakovenko, S., Trifonov, A., Obydenov, A., and Khanin, V. Langmuir-blodgett films in the development of high temperature single electron tunneling devices. Thin Solid Films 327 (1998), 550–553. [ DOI ]

Krupenin, V., Presnov, D., Savvateev, M., Scherer, H., Zorin, A., and Niemeyer, J. Noise in al single electron transistors of stacked design. Journal of Applied Physics 84, 6 (1998), 3212–3215. [ DOI ]

Учебно-методические пособия

Корнев В., Кленов Н. Задачи физического практикума по сверхпроводниковой электронике. — М.: Издательство Физического факультета МГУ имени М.В. Ломоносова, 2012. — С. 77.

Корнев В. Введение в работу с программным пакетом PSCAN в практикуме по сверхпроводниковой электронике. — М.: Издательство Физического факультета МГУ имени М.В. Ломоносова, 2012. — С. 45.

Корнев В.К., Васенко С.А. Сборник задач по курсу электродинамики сверхпроводников.  Изд. 2-е, дополнкенное — М.: Издательство Физического факультета МГУ имени М.В. Ломоносова, 2000.  С. 79.

Публикации последних лет

Dagesyan, S.A., Shorokhov, V.V., Presnov, D.E., Soldatov, E.S., Trifonov, A.S., Krupenin, V.A., and Snigirev, O.V. Single-electron transistor with island formed by several dopant phosphorus atoms. Moscow University Physics Bulletin 72, 5 (2017), 474–479. [ DOI ]

Дагесян, С.А., Шорохов, В.В., Преснов, Д.Е., Солдатов, Е.С., Трифонов, А.С., Крупенин, В.А., и Снигирёв, О.В. Одноэлектронный транзистор с островом из нескольких примесных атомов фосфора. Вестник Московского университета. Серия 3: Физика, астрономия, 5 (2017), 32–38. DOI ]

Trifonov, A.S., Presnov, D.E., Bozhev, I.V., Evplov, D.A., Desmaris, V., and Krupenin, V.A. Non-contact scanning probe technique for electric field measurements based on nanowire field-effect transistor. Ultramicroscopy 179 (2017), 33–40. [ DOI ]

Presnova, G., Presnov, D., Krupenin, V., Grigorenko, V., Trifonov, A., Andreeva, I., Ignatenko, O., Egorov, A., and Rubtsova, M. Biosensor based on a silicon nanowire field-effect transistor functionalized by gold nanoparticles for the highly sensitive determination of prostate specific antigen. Biosensors and Bioelectronics 88 (2017), 283–289. [ DOI ]

Rubtsova, M.Y., Presnova, G.V., Krupenin, V.A., Presnov, D.E., Grigorenko, V.G., and Egorov, A.M. Biosensor based on a nanowire field-effect transistor for the determination of prostate specific antigen. Procedia Technology 27 (2017), 234–235. [ DOI ]

Dagesyan, S.A., Shorokhov, V.V., Presnov, D.E., Soldatov, E.S., Trifonov, A.S., and Krupenin, V.A. Sequential reduction of the silicon single-electron transistor structure to atomic scale. Nanotechnology 28 (2017), 225304. [ DOI ]

Shorokhov, V.V., Presnov, D.E., Amitonov, S.V., Pashkin, Y.A., and Krupenin, V.A. Single-electron tunneling through an individual arsenic dopant in silicon. Nanoscale 9 (2017), 613–620. [ DOI ]

Kornev, V., Sharafiev, A., Kolotinskiy, N., and Mukhanov, O. Microwave dynamics of superconducting quantum cell. IEEE Transactions on Applied Superconductivity 25, 3 (2015), 1602306. [ DOI ]

Kornev, V. K., Kolotinskiy, N. V., Skripka, V. A., Sharafiev, A. V., and Mukhanov, O. A. Output power and loading of superconducting quantum array. IEEE Transactions on Applied Superconductivity 25, 3 (2015), 1602005. [ DOI ]

V. Kornev, N. Kolotinskiy, A. Sharafiev, and O. Mukhanov. Size effects in active superconductor antennas. In 15th International Superconductive Electronics Conference, ISEC 2015: Extended Abstracts, pages HF–P16, Japan, 2015.

Trifonov, A., Lubenchenko, A., Polkin, V., Pavolotsky, A., Ketov, S., and Louzguine-Luzgin, D. Difference in charge transport properties of ni-nb thin films with native and artificial oxide. Journal of Applied Physics 117 (2015), 125704–1–125704–5. [ DOI ]

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. MOSCOW UNIVERSITY PHYSICS BULLETIN 70, 2 (2015), 134–139. [ DOI ]

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

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