Klenov, N., Pugach, N., Sharafiev, A., Bakurskiy, S., and Kornev, V. Josephson junctions with nonsinusoidal current-phase relations based on heterostructures with a ferromagnetic spacer and their applications.šPhysics of the Solid State 52, 11 (2010), 2246?2251. [šDOIš]

Malinin, V., Shorokhov, V., and Soldatov, E. Determination of electronic properties of molecular objects on the basis of nanodevices transport characteristics.šProceedings of SPIE - The International Society for Optical Engineering 7521š(2010), 75210?1?75210?10.š[šDOIš]

Stepanov, A., Soldatov, E., and Snigirev, O. Formation of molecular transistor electrodes by electromigration. InšProc. SPIEš(2010), vol.š7521, pp.š752112?1?752112?8. [šDOIš]

Kuturov, A., Soldatov, E., Polyakova, L., and Gubin, S. Formation of the atomically smooth surface of gold film and the binding of gold nanoparticles on it by the self-assembly method. InšProc. SPIEš(2010), vol.š7521, pp.š752113?1?752113?9.š[šDOIš]

Sapkov, I., Kolesov, V., and Soldatov, E. Preparation of electrodes for molecular transistor by focused ion beam. InšProc. SPIEš(2010), vol.š7521, pp.š752110?1?752110?6.š[šDOIš]

Kornev, V., Soloviev, I., Klenov, N., and Mukhanov, O. Progress in high-linearity multi-element josephson structures.šPhysica C: Superconductivity and its Applications 470, 19 (2010), 886?889. [šDOIš]

Soloviev, I., Kornev, V., Klenov, N., and Mukhanov, O. Superconducting josephson structures with high linearity of transformation of magnetic signal into voltage.šPhysics of the Solid State 52, 11 (2010), 2252?2258. [šDOIš]

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

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

Klenov, N., Kornev, V., Sharafiev, A., Bakurskiy, S., and Pugach, N. Superconductor-ferromagnet-superconductor junctions in flux and phase qubits.šJournal of Physics: Conference Series 234š(2010), 042017. [šDOIš]

Kornev, V., Soloviev, I., Klenov, N., and Mukhanov, O. Dc squid array with nonlinear inductance.šJournal of Physics: Conference Series 234š(2010), 042034?1? 042034?4.š[šDOIš]

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

Malinin, V., Shorokhov, V., and Soldatov, E. Determination of electronic properties of molecular objects on the basis of nanodevices? transport characteristics. InšInternational Conference on Micro-and Nano-Electronics 2009š(2009), pp.š75210?75210.š[šDOIš]

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

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

Kornev, V.šK., Soloviev, I.šI., Klenov, N.šV., and Mukhanov, O.šA. High linearity sqif-like josephson-junction structures.šIEEE Transactions on Applied Superconductivity 19, 3 (2009), 741?744. [šDOIš]

Kornev, V.šK., Soloviev, I.šI., Klenov, N.šV., Filippov, T.šV., Engseth, H., and Mukhanov, O.šA. Performance advantages and design issues of sqifs for microwave applications.šIEEE Transactions on Applied Superconductivity 19, 3 (2009), 916?919. [šDOIš]

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

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

Sapkov, I., Soldatov, E., and Elensky, V. Method of creation of monomolecular transistor with ?overhanging? electrodes. InšProc. SPIE 7025š(2008), vol.š7025, pp.š70250P?1?70250P?8.š[šDOIš]

Shorokhov, V., Soldatov, E., and Elenskiy, V. The method for the determination of electrical self-capacitance of atomic and molecular scale objects. InšProc. SPIE 7025š(2008), vol.š7025, pp.š70250N?1?70250N?8.š[šDOIš]

Kuturov, A., Stepanov, A., and Soldatov, E. Ñreation of nanometer gaps between thin- film metal electrodes by the method of electromigration. InšProc. SPIE 7025š(2008), vol.š7025, pp.š7025Q1?7025Q10. [šDOIš]

Kornev, V., Soloviev, I., Klenov, N., and Mukhanov, O. High linearity josephson-junction array structures.šPhysica C: Superconductivity and its Applications 468, 7-10 (2008), 813?816. [šDOIš]

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.šJournal of Communications Technology and Electronics 53, 8 (2008), 934?940.š[šDOIš]

Klenov, N., Kornev, V., Vedyayev, A., Ryzhanova, N., Pugach, N., and Rumyantseva, T. Examination of logic operations with silent phase qubit.šJournal of Physics: Conference Series 97š(2008), 012037?1?012037?5.š[šDOIš]

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.šJ. Nanopart. Res 10, 3 (2008), 487?497. [šDOIš]

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.šPhysical Review B - Condensed Matter and Materials Physics 78, 2 (2008). [šDOIš]

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

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.šTechnical Physics 52, 5 (2007), 660?662.š[šDOIš]

Snigirev, O.šV., Chukharkin, M.šL., Kalabukhov, A.šS., Tarasov, M.šA., Deleniv, A.šA., Mukhanov, O.šA., and Winkler, D. Superconducting quantum interference filters as rf amplifiers.šIEEE Transactions on Applied Superconductivity 17, 2 (2007), 718?721.š[šDOIš]

Kornev, V.šK., Soloviev, I.šI., Klenov, N.šV., and Mukhanov, O.šA. Development of sqif-based output broad band amplifier.šIEEE Transactions on Applied Superconductivity 17, 2 (2007), 569?572. [šDOIš]

Lotkhov, S., Krupenin, V., and Zorin, A. Cooper pair transport in a resistor-biased josephson junction array.šIEEE Transactions on Instrumentation and Measurement 56, 2 (2007), 491?494. [šDOIš]

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.šJournal of Communications Technology and Electronics 51, 11 (2006), 1319?1324.š[šDOIš]

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

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

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.šSuperconductor Science and Technology 19, 5 (2006), S390?S393. [šDOIš]

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.šIEEE Transactions on Applied Superconductivity 15, 3 (2005), 3874?3878.

Kornev, V., Soloviev, I., and Mukhanov, O. Possible approach to the driver design based on series sqif.šIEEE Transactions on Applied Superconductivity 15, 2 (2005), 388?391. [šDOIš]

Krupenin, V., Zalunin, V., and Zorin, A. The peculiarities of single-electron transport in granular cr films.šMicroelectronic Engineering 81, 2-4 (2005), 217?221. [šDOIš]

Soldatov, E., Kislov, V., Gubin, S., Artemyev, M., Kisiel, D., Sergeev-Cherenkov, A., Pavlov, S., Trifonov, A., and Khomutov, G. Monomolecular polymeric films with incorporated au-101 clusters.šMicroelectronic Engineering 81, 2-4 (2005), 400?404. [šDOIš]

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

Kislinskii, Y., Komissinski, P., Constantinian, K., Ovsyannikov, G., Karminskaya, T., Soloviev, I., and Kornev, V. Superconducting current in hybrid heterojunctions of metal-oxide superconductors: Size and frequency dependences.šJournal of Experimental and Theoretical Physics 101, 3 (2005), 494?503. [šDOIš]

Krupenin, V., Presnov, D., Zalunin, V., Vasenko, S., and Zorin, A. A strongly asymmetric single-electron transistor operating as a zero-biased electrometer.šJETP Letters 82, 2 (2005), 77?80. [šDOIš]

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).šApplied Surface Science 241, 1-2 (2005), 28?32. [šDOIš]

Guo, X., Dong, Z., Trifonov, A., Miki, K., Kimura, K., and Mashiko, S.šStm-induced molecular fluorescence from porphyrin molecules on metal substrates.šApplied Physics A: Materials Science and Processing 81, 2 (2005), 367?370. [šDOIš]

Shorokhov, V., Soldatov, E., and Snigirev, O. Theoretical study of characteristics of a molecular single-electron transistor.šThin Solid Films 464š(2004), 445?451.šš[šDOIš]

Fokin, Y., Krupenin, S., Murzina, T., Aktsipetrov, O., Soria, S., and Marowsky, G. Ferroelectric switching and phase transitions in thin cells of chiral smectic liquid crystals.šSurface Science 566š(2004), 783?788. [šDOIš]

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

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

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.šApplied Surface Science 226, 1-3 SPEC. ISS. (2004), 149?154. [šDOIš]

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.šJournal of Communications Technology and Electronics 48, 12 (2003), 1404?1409.

Guo, X., Dong, Z., Trifonov, A., Yokoyama, S., Mashiko, S., and Okamoto, T. Light emission from organic molecules on metal substrates induced by tunneling currents.šJapanese Journal of Applied Physics, Part 1: Regular Papers & Short Notes 42, 11 (2003), 6937?6940. [šDOIš]

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).šPhysical Review B - Condensed Matter and Materials Physics 68, 11 (2003). [šDOIš]

Soldatov, E., Gubin, S., Maximov, I., Khomutov, G., Kolesov, V., Sergeev-Cherenkov, A., Shorokhov, V., Sulaimankulov, K., and Suyatin, D. Molecular cluster based nanoelectronics.šMicroelectronic Engineering 69, 2 (2003), 536?548.š[šDOIš]

Suyatin, D., Soldatov, E., Maximov, I., Montelius, L., Samuelson, L., Khomutov, G., Gubin, S., and Sergeev-Cherenkov, A. Metal nanoelectrodes for molecular transistor and investigation of electron transport in molecular systems.šProceedings of SPIE - The International Society for Optical Engineering 5023š(2003), 327?329. [šDOIš]

Khomutov, G., Kislov, V., Gainutdinov, R., Gubin, S., Obydenov, A., Pavlov, S., Sergeev-Cherenkov, A., Soldatov, E., Tolstikhina, A., and Trifonov, A. The design, fabrication and characterization of controlled-morphology nanomaterials and functional planar molecular nanocluster-based nanostructures.šSurface Science 532(2003), 287?293. [šDOIš]

Khomutov, G., Kislov, V., Antipina, M., Gainutdinov, R., Gubin, S., Obydenov, A., Pavlov, S., Rakhnyanskaya, A., Sergeev-Cherenkov, A., Soldatov, E., Suyatin, D., Tolstikhina, A., Trifonov, A., and Yurova, T. Interfacial nanofabrication strategies in development of new functional nanomaterials and planar supramolecular nanostructures for nanoelectronics and nanotechnology.šMicroelectronic Engineering 69, 2-4 (2003), 373?383. [šDOIš]

Kornev, V., Soloviev, I., Klenov, N., Pedersen, N., Borisenko, I., Mozhaev, P., and Ovsyannikov, G. The 0 and pi contact array model of bicrystal junctions and interferometers.šIEEE Transactions on Applied Superconductivity 13, 2 (2003), 825?828. [šDOIš]

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

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

Dong, Z., Trifonov, A., Guo, X., Amemiya, K., Yokoyama, S., Kamikado, T., Yamada, T., Mashiko, S., and Okamoto, T. Tunneling electron induced photon emission from monolayered h2tbp porphyrin molecules on cu(100).šSurface Science 532š(2003), 237?243. [šDOIš]

Dorozhkin, P., Trifonov, A., and Dong, Z. Rectifying behavior of a free-standing carbon nanotube kink-shaped heterojunction.šJapanese journal of applied physics 41, 12A (2002), 1376. [šDOIš]

Zou, Z., Dong, Z., Trifonov, A., and Nejo, H. Atomic resolution imaging of a single-crystal cu (100) surface by scanning tunneling microscopy in ultrahigh vacuum at room temperature.šJournal of vacuum science & technology B 20, 4 (2002), 1567?1569. [šDOIš]

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.šPhysica C: Superconductivity and its Applications 372š(2002), 271?273.š[šDOIš]

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.šPhysica C: Superconductivity and its Applications 372š(2002), 166?169.š[šDOIš]

Kornev, V., Ovsyannikov, G., Mozhaev, P., Borisenko, I., and Pedersen, N. Bicrystal pi-interferometers.šPhysica C 368š(2002), 332?336.š[šDOIš]

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.šPhysica C: Superconductivity and its Applications 368, 1-4 (2002), 171?175.š[šDOIš]

Khomutov, G., Gubin, S., Khanin, V., Koksharov, A., Obydenov, A., Shorokhov, V., Soldatov, E., and Trifonov, A. Formation of nanoparticles and one-dimensional nanostructures in floating and deposited langmuir monolayers under applied electric and magnetic fields.šColloids and Surfaces A: Physicochemical and Engineering Aspects 198š(2002), 593?604. [šDOIš]

Khomutov, G., Belovolova, L., Khanin, V., Soldatov, E., and Trifonov, A. Stm investigation of electron transport features in cytochrome c langmuir-blodgett films.šColloids and Surfaces A: Physicochemical and Engineering Aspects 198š(2002), 745?752. [šDOIš]

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.šBioelectrochemistry 55, 1-2 (2002), 177?181. [šDOIš]

Obydenov, A., Gubin, S., Khanin, V., Polyakov, S., Sergeyev-Cherenkov, A., Soldatov, E., Trifonov, A., and Khomutov, G. Structure and properties of langmuir-blodgett films containing cluster molecules.šColloids and Surfaces A: Physicochemical and Engineering Aspects 198š(2002), 389?400. [šDOIš]

Kornev, V., Borisenko, I., Mozhaev, P., Ovsyannikov, G., and Pedersen, N. Dynamics of pi-junction interferometer circuits.šPhysica C 367š(2002), 285?289.š[šDOIš]

Gubin, S., Gulayev, Y.šV., 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.šNanotechnology 13š(2002), 185?194.š[šDOIš]

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.šJournal of Applied Physics 91, 5 (2002), 3049?3053.š[šDOIš]

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.šPhysica C: Superconductivity and its Applications 368, 1-4 (2002), 66?69.š[šDOIš]

Soldatov, E., Gubin, S., Johansson, P., Kolesov, V., Sergeev-Cherenkov, A., Shorokhov, V., Sulaimankulov, K., and Khomutov, G. Correlated electron tunneling in the single-molecule nanosystems.šPhysics of low-dimensional structures, 1/2 (2002), 113?134.

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

Kornev, V., Borisenko, I., and Ovsyannikov, G. High-frequency electyromagnetic interactions in multijunction josephson structures.šJournal of Communications Technology and Electronics 46, 9 (2001), 949?967.

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

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

Volkov, I., Kalabukhov, A., Snigirev, O., Zherikhin, A., and Mavrin, B. Carbon masks for the fabrication of submicron yba2cu3ox bridges and josephson junctions.šJournal 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.šJournal of Communications Technology and Electronics 46, 7 (2001), 729?740.

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

Obydenov, A., Gubin, S., Khanin, V., Polyakov, S., Sergeev-Cherenkov, A., Soldatov, E., Trifonov, A., and Khomutov, G. Langmuir-blodgett films containing cluster molecules.šBiologicheskie Membrany 18, 4 (2001), 328?336.

Kornev, V., Shcherbakov, N., Arzumanov, A., Mozhaev, P., Ñonstantinian, K., Mashtakov, A., and Ovsyannikov, G. Arrays of josephson junctions coupled by distributed circuits.šIEEE Transactions on Applied Superconductivity, 11 (2001), 1227?1230.š[šDOIš]

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

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.šIEEE Transactions on Applied Superconductivity 11, 1 (2001), 223?225. [šDOIš]

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.šIEEE Transactions on Applied Superconductivity 11, 1 (2001), 219?222.š[šDOIš]

Khomutov, G., Gaynutdinov, R., Gubin, S., Obydenov, A., Soldatov, E., Tolstikhina, A., and Trifonov, A. Planar synthesis of anisotropic nanoparticles.šMaterials Research Society Symposium Proceedings 635š(2001), 4201.