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Избранные публикации

Presnov, D. E., Bozhev, I. V., Miakonkikh, A. V., Simakin, S. G., Trifonov, A. S., and Krupenin, V. A. Local sensor based on nanowire field effect transistor from inhomogeneously doped silicon on insulator. Journal of Applied Physics 123, 5 (2018), 054503. [ DOI ]

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

Presnov, D. E., Bozhev, I. V., Miakonkikh, A. V., Simakin, S. G., Trifonov, A. S., and Krupenin, V. A. Local sensor based on nanowire field effect transistor from inhomogeneously doped silicon on insulator. Journal of Applied Physics 123, 5 (2018), 054503. [ DOI ]

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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