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Timestamp: 2019-04-23 08:01:32+00:00

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The full text of papers at conference “Micro- and Nanoelectronics 2003” (ICMNE-2003) has been published in Proceedings of SPIE, vol.5401 (SPIE, Bellingham, WA, 2004), 762 pp.
Version for print "CONFERENCE PROGRAM"
Microanalysis of nanostructures. F. Bauer.
OXFORD Instruments GmbH/Oxford Instruments Analytical Ltd.
Elaboration of gallium arsenide technology in Georgia for development of microelectronic devices. N. Khuchua 1, Z. Chakhnakia 1, L. Khvedelidze 1, R. Melkadze 1, A. Tutunjan 1, R. Diehl 2. 1. Research and Production Complex (RPC) "Electron Technology" of I.Javakhishvili Tbilisi State University, Tbilisi, Georgia; 2. III-V Electronics and Optoelectronics Hardheim, Germany.
INVITED: High-purity mono-isotopic 28Si, 29Si, 30Si. G. G. Devyatykh1, P. G. Sennikov1, A. V. Gusev1, A. D. Bulanov1, I. D. Kovalev1, A. K. Kaliteevskii2, O. N. Godisov2, H. Riemann3, N. V. Abrosimov3, H. - J. Pohl4. Institute of Chemistry of High-Purity Substances, RAS, Nizhny Novgorod, Russia; 2. STC "Centrotech-EchP", St.-Peterburg, Russia; 4. VITCON Projectconsult GmbH, Jena, Germany.
INVITED: Process Optimization using Lithography Simulation. A. Erdmann. Fraunhofer Institute of Integrated Systems and Device Technology (IISB), Erlangen, Germany.
Laser source of ions for nanotechology. B. G. Freinkman1, A. V. Eletskii2, S. I. Zaitsev2. 1. IMT RAS, Chernogolovka, Moscow distr., Russia; 2. RSC "Kurchatov Institute", Moscow.
Ion lithography using FIB. Yu. B. Gorbatov, A. F. Vyatkin. Institute of Microelectronics Technology, RAS, Chernogolovka, Russia.
Epitaxial growth of silicon on porous silicon. M. Balucani1, A. Belous2, V. Bondarenko3, G. Troyanova3, A. Ferrari1. 1. Unit of Research E6 INFM, Rome University "La Sapienza", Roma, Italy; 2. Research and Design Company "Belmicrosystems", Minsk, Belarus; 3. Belarusian State University of Informatics and Radioelectronics, Minsk, Belarus.
Structure Peculiarities of Metallic Films Produced by Selective Removal of Atoms. B. Gurovich, A. Domantovsky, K. Maslakov, E. Olshansky, K. Prikhodko. Russian Research Center "Kurchatov Institute", Moscow, Russia.
A Self-consistent Modeling of the Leakage Current Through Thin Oxides. I. Polishchuk1,2, E. Burovski1,2. 1. RRC "Kurchatov institute", Moscow; 2. Kinetic Technologies, Ltd, Moscow.
Analysis of the metal single-electron arrays based on different materials. I. I. Abramov, S. A. Ignatenko. Belarusian State University of Informatics and Radioelectronics, Minsk, Belarus.
Magnetic force microscopy of magnetization reversal of microstructures in situ in external field of up to 2000Oe. A. Bukharaev, D. Biziaev, P. Borodin, D. Ovchinnikov. Zavoisky Physical Technical Institute of RAS, Kazan, Russia.
Study of PZT thin films of different compositions by atomic force microscopy. A. Ankudinov, I. Pronin, N. Pertsev, I. Titkov, A. Titkov. A.F.Ioffe Physico-Technical Institute, RAS, St.Petersburg, Russia.
Local contact charging of semiconductor quantum dots by atomic force microscopy. A. N. Titkov1, M. S. Dunaevskii1, R. Laiho2. 1.Ioffe Physical-Technical Institute, RAS, St.-Peterburg, Russia; 2. Wihury Physical Laboratory, University of Turku, Finland.
Glass-encapsulated Single-crystal Nanowires and Filiform Nanostructures Fabrication. E. Badinter1, T. Huber2, A. Ioisher1, A. Nikolaeva3, I. Starush1. 1.Institute ELIRI s.a., Moldova; 2.Howard University, USA; 3. Institute of Applied Physics, Moldova.
Room B. Session 7. Magnetic nanostructures.
Ferroelectric barium-strontium titanate films: electrical properties, microstructure, applications. O. M. Zhigalina1, O. V. Chuprin2, K. A. Vorotilov2, V. A. Vasil'ev2, A. S. Sigov2, Yu. V. Grigoriev1, N. M. Kotova3. 1.Institute of Crystallography, RAS, Russia; 2.Moscow State Technical University of Radioengineering, Electronics and Automation, Moscow, Russia; 3. Institute of Physical Chemistry, Moscow, Russia.
Magnetization reversal due to spin injection in magnetic junction. R. J. Elliott1, E. M. Epshtein2, Yu. V. Gulyaev2, P. E. Zilberman2. 1. University of Oxford Department of Physics, UK; 2. Institute of Radio Engineering and Electronics, RAS, Russia.
Some peculiarities of longitudinal magneto-resistance in single crystal wires of pure and doped bismuth. D. Gitsu1, T. Huber2, L. Konopko1, A. Nikolaeva1,3. 1. Institute of Applied Physics, AS, Moldova; 2.Department of Chemistry, Woward University, Washington, USA; 3. International Laboratory of High Magnetic Fields and Low Temperatures, Wroclav, Poland.
Epitaxial Ni Films and Giant Magnetoresistance in Ballistic Ni Nanostructures. I. V. Malikov, V. Yu. Vinnichenko, L. A. Fomin and G. M. Mikhailov. Institute of Microelectronics Technology& High Purity Materials RAS, Chernogolovka, Moscow.
INVITED: Elements of electron-photonic integrated systems. V. V. Aristov, M. Yu. Barabanenkov, V. N. Mordkovich. Institute of Microelectronics Technology and High Purity Materials RAS.
INVITED: Macroporous silicon: material science and technology. A. F. Vyatkin. Institute of Microelectronics Technology and High Purity Materials RAS.
1D photonic crystals based on periodically grooved Si. V. Tolmachev1, E. Astrova1, T. Perova2. 1. Ioffe Physico-Technical Institute, St.-Peterburg, Russia; 2. Dept. Electr.& Electr. Eng., Trinity College, Dublin, Ireland.
White light emission from nanostructures embedded in ultra-shallow silicon p-n junctions. N. T. Bagraev, A. D. Bouravleuv, L. E. Klyachkin and A. M. Malyarenko. A.F. Ioffe Physico-Technical University, St.Petersburg, Russia.
A 512 Х 512 IR PtSi CMOS IMAGE SENSOR. S. Abramov, A. Belin, A. Gvaskov, V. Guminov, V. Zolotariov, V. Zoubkov, A. Popov, G. Rudakov, V. Rjabik, D. Churbanov. Matrix technologies inc.
Spin transport in Ge/Si quantum dot array. A. V. Nenashev, A. F. Zinovieva, A. V. Dvurechenskii. Institute of Semiconductor Physics, RAS, Novosibirsk, Russia.
Structural, photoluminescence and electrical properties of n-Si1-хGeх/n+(p)-Si heterojunction in relaxed Si1-хGeх/Si structure. L. K. Orlov1, A. V. Potapov1, M. L. Orlov1, V. I. Vdovin2, E. A. Steinman3, Zs. J. Horvath4, L. Dozsa4. 1.Institute for Physics of Microstructures, RAS, Nizhny Novgorod, Russia; 2. Institute for Chemical problems of Microelectronics, Moscow, Russia; 3. Institute of Solid State Physics, RAS, Chernogolovka, Russia; 4. Research Institute for Technical Physics and Materials Science, HAS, Budapest, Hungary.
Electronic properties of the Si-Si1-хGeх field effect transistor heterostructures: electrical and electrophysical measurements. L. K. Orlov , A. V. Potapov, N. L. Ivina, R. A. Rubtsova, Zs. Horvath, L. Dozsa, A. S. Lonchakov, Yu. A. Arapov. 1.Institute for Physics of Microstructures, RAS; 2. State Lobachevsky University, Nizhny Novgorod, Russia; 3. Research Institute for Technical Physics and Materials Science, HAS, Budapest, Hungary; 4. Institute of Metal Physics RAS, Ekaterinburg.
Investigation of transport mechanisms in a-SiGe:H/c-Si heterostrucrures. A. Sherchenkov, B. Budaguan, A. Mazurov. Institute of Electronic Technology, Moscow, Russia.
Implanted quantum-dimensional SiGe structures. N. N. Gerasimenko1 and Yu. V. Parhomenko2. 1. Moscow Institute of Electronic Engineering; 2. Moscow Institute of Steel and Alloys.
Microwave discharge on external surface of quartz plate. V. M. Shibkov, A. P. Ershov, O. S. Surkont. Moscow State University, Physical Depart., Moscow, Russia.
Comparative study of inductively coupled and microwave BF3 plasmas for microelectronic technology applications. Ya. N. Sukhanov, A. P Ershov, K. V. Rudenko and A. A. Orlikovsky. Institute of Physics and Technology RAS, Moscow, Russia.
Volume and heterogeneous chemistry in Cl2/Ar inductively coupled plasma. A. Efremov 1,2, V. Svettsov 1, C. - I. Kim 2. 1. Ivanovo State University of Chemistry & Technology, Ivanovo, Russia; 2. Chung-Ang University, Seoul, Korea.
Formation of micro-and nanostructures in Si and SiO2 by using plasma etching and deposition processes. I. Amirov, M. Izyumov, O. Morozov, A. Shumilov. Institute of Microelectronics and Informatics, RAS, Yaroslavl, Russia.
Precise speeding shallow trench etch development for power electronics. V. Galperin, V. Zuev. OAO Angstrem, Zelenograd, Russia.
Room A. Session 11. Technological processes I.
AlGaAs-GaAs heterostructure ?-doped field-effect transistor (?-FET). Z. Chakhnakia 1, Z. Hatzopoulos 2, L. Khvedelidze 1, N. Khuchua 1, R. Melkadze 1, G. Peradze 1. 1. Research & Production Complex "(RPC) Electron Technology" of Tbilisi State University, Tbilisi, Georgia; 2. Foundation for Research and Technology - Hellas (FORTH) Institute of Electron Structure & Lasers, Heraklion, Greece.
Ion beam synthesis of cobalt silicides in Si and SiGe. G .G. Gumarov1, V. Yu. Petukhov1, V. A. Shustov1, O. P. Pchelyakov2, V. I. Mashanov2, I. B. Khaibullin1. 1. Kazan Physical-Technical Institute, RAS, Kazan, Russia; 2. Institute of Semiconductor Physics, RAS, Novosibirsk, Russia.
Planarization process of CMOS RAM multilevel interconnection system. V. A. Vasil'ev1, K. A. Vorotilov1, A. S. Valeev2, V. I. Shishko2, V. V. Mishin1, C. P. Volk2, A. S. Sigov1. 1. Moscow State Institute lf Radioengineering, Electronics and Automation, Moscow, Russia; 2. Scientific and Research Institute of Molecular Electronics and Mikron plant, Moscow, Russia.
Room B. Session 12. Technological processes II.
Investigation of the dynamics of recrystallization and melting of the surface of implanted silicon at rapid thermal processing. Ya. Fattakhov, M. Galyautdinov, T. L'vova, M. Zakharov, I. Khaibullin. Kazan Physico-Technical Institute, RAS, Kazan, Russia.
The Peculiarities of BF2 Ion Implantation During of Silicon MDS Integration Circuit Formation. A. N. Tarasenkov, N. N. Gerasimenko. Moscow Institute of Electronic Technology (Technical University), Zelenograd, Russia.
Phases transformation in Ti(Ta)-Ni(Co)-Si-N systems. I. Horin1, A. A. Orlikovsky1, A. G. Vasiliev1,2, A. L. Vasiliev3,4. 1. Institute of Physics&Technology (IPT), RAS, Moscow, Russia; 2.Moscow State Institute of Radioengineering, Electronics and Automation (Technical University), Moscow, Russia; 3. Institute of Crystallography, RAS, Moscow, Russia; 4. Department of Metallurgy and Materials Eng., Institute of Materials Science, University of Connecticut, Storrs, USA.
Ultra-low k dielectric for multilevel metallization system. V. V. Mishin, A. S. Sigov, V. A. Vasil'ev, K. A. Vorotilov. Moscow State Institute of Radioengineering, Electronics and Automation, Moscow, Russia.
Development of copper metallization for VLSI using diffusion barrier Ta-W-N layer. A. Klimovitskiy, E. Leonova, A. Mochalov. Moscow State Institute of Radioengineering, Electronics and Automation (Technical University), Moscow, Russia.
INVITED: Developments of Terahertz Wave Generation Technologies. Ken Suto1, Jun-ichi Nishizawa2,3. 1. Department of Materials Science, Tohoku University, Japan; 2. Photodynamics Research Center, Japan; 3. Semiconductor Research Institute, Japan.
INVITED: Electron-phonon interaction in 2D heterostructures. J. Pozela. Semiconductor Physics Institute, Vilnius, Lithuania.
INVITED: Investigation of physical and technological limits for sub-100 nm III-nitride transistors. S. Shapoval. Institute of Microelectronics Technology RAS, Chernogolovka, Russia.
Ultra high frequency AlGaN/GaN-transistor with inverted 2DEG Channel. V. G. Mokerov1, L. E. Velikovskii1, M. B. Vvedenskii1, Z. T. Kanametova1, V. E. Kaminskii1, P. V. Sazonov1, D. S. Silin1, J. Graul2, O. Semchinova2. 1. Institute of UHF Semiconductor Electronics of RAS, Moscow, Russia; 2. Laboratories for Informationstechnologie, University Hanover, Germany.
Low temperature technology of semiconductor devices and integrated circuits. A. Bibilashvili, Z. Bokhochadze, A. Gerasimov, R. Kazarov, Z. Kushitashvili, I. Lomidze, T. Ratiani, Z. Samadashvili. Microelectronics chair of Tbilisi State University, Tbilisi, Georgia.
Very-high-speed planar integrated circuit technology based on monolithic integration of RTD and SFET. A. Gorbatsevich1, I. Kazakov2, B. Nalbandov1, S. Shmelev1, A. Tsibizov2. 1. Moscow Institute of Electronic Technology (Technical University), Moscow, Russia; 2. P.N. Lebedev Physical Institute, RAS, Moscow, Russia.
10 GHz 1:2 Switch MMIC for the communication and radar applications. V. G. Mokerov, D. L. Gnatyuk, B. G. Nalbandov, E. N. Ovcharenko, A. P. Lisitskii. Institute of UHF Semiconductor Electronics, RAS, Moscow, Russia.
Multichannel high-speed gallium arsenide integrated circuits for signal processing systems. V. Bespalov, L. Burzina, A. Gorbatsevich, M. Kirillov, B. Nalbandov, S. Schmelev. Scientific and Education Center LPI and MIET on Quantum Devices and Nanotechnologies, Moscow, Russia.
Photoluminescence characterization of resonant-tunneling diodes based on the GaAs/AlGaAs long-period superlattices in process of fabrication. A. A. Belov , A. L. Karuzskii , I. P. Kazakov , Yu. A. Mityagin , V. N. Murzin , A. V. Perestoronin, A. A. Pishchulin , S. S. Shmelev. P.N.Lebedev Physical Institute of RAS, Moscow, Russia.
Pulsed laser deposition of ZnO thin films. Zherikhin A. N., Khudobenko A. I., Panchenko V. Ya.
Non-universal scaling in the integral quantum Hall regime in two-dimensional electon gas in InGaAs/InP heterostructures. B. Podor1,2, Gy. Kovacs3, G. Remenyi4, I. G. Savel`ev5. 1. Research Institute for Technical Physics and Materials Science, HAS, Budapest, Hungary; 2. Budapest Polytechnic, Kando Kalman Faculty of Electrical Engineering, Institute of Microelectronics and Technology, Budapest, Hungary; 3. Department of General Physics, Eotvos Lorand University, Budapest, Hungary; 4. CNRS Center de Recherches sur les Tres Basses Temperatures et Laboratoire des Champs Magnetiques Intenses, Grenoble, France; 5. A.F.Ioffe Physical Technical Institute, RAS, St.Peterburg, Russia.
Ballistic transport in quantum interference devices. A. A. Gorbatsevich1, V. V. Kapaev2. 1. Moscow Institute of Electronic Technology (Technical University), Moscow, Russia; 2. P.N. Lebedev Physical Institute, RAS, Moscow, Russia.
New peculiarities of interband tunneling in broken-gap heterostructures. A. Zakharova1, S. T. Yen2, K. A. Chao3. 1. Institute of Physics and Technology RAS, Moscow, Russia; 2. Department of Electronics Engineering, National Chiao Tung University, Hsinchu, Taiwan, Republic of China; 3. Department of Physics, Lund University, Sweden.
Structural, photoluminescence and electrophysical properties of the porous multilayer InGaAs/GaAs heterostructures. L. K. Orlov1, N. L. Ivina1, N. A. Alyabina1, N. V. Vostokov2, R. A. Rubtsova1. 1. State Lobachevsky University; 2. Institute for Physics of Microstructures, RAS, Nizhny Novgorod, Russia.
Integrated sensor of current. V. Amelichev1, A. Galushkov1, S. Polomoshnov2, Iu. Chaplygin2 . 1. State Research Center Scientific and Manufacturing Coplex of the RF "Technological Center" at MIET, Moscow-Zelenograd, Russia; 2. Moscow State Institute of Electronic Technology Moscow-Zelenograd, Russia.
Linear electrostatic micromotors for nano- and micro-positioning. I. L. Baginsky and E. G. Kostsov. Institute of Automation and Electrometry, RAS, Novosibirsk, Russia.
Constructive-technological methods of self-forming - the base for fabrication of operating and sensitive elements for integrated microsystems. A. I. Galushkov, A. N. Saourov. SMC "Technological Center" MIEE, Moscow, Russia.
3D micromachined gyroscope. I. Lysenko, B. Konoplev. Taganrog State Universitu of Radio-Engineering, Taganrog, Russia.
Bolometric matrix multiplexer. V. Minaev1, E. Volodin, V. Zyubin, V. Chesnokov, I. Mikhalev, E. Muryleva, Yu. Fortinsky, Yu. Tschetverov. 1. JSC "Angstrem-M", Moscow, Russia; 2. JSC "Angstrem-M", Moscow, Russia; 3. JSC "ITTP IP", Moscow, Russia.
Room B. Session 16. Quantum Informatics.
Models of ensemble NMR quantum cellular automata based on artificial and natural electronic antiferromagnets. A. A. Kokin. Institute of Physics and Technology of RAS, Moscow, Russia.
Quantum key distribution on polarized single photons. V. L. Kurochkin, I. I. Ryabtsev, I. G. Neizvestny. Institute of Semiconductor Physics, RAS, Novosibirsk, Russia.
Anomalous Transport in Sisyphus Cooling Optical Lattice Scheme and Levy Distributions. M. P. Kondrashin, V. P. Yakovlev. Moscow State Engineering Physics Institute (state university), Russia.
Negative-U properties for a quantum dot. N. T. Bagraev1, A. D. Bouravleuv1, L. E. Klyachkin1, A. M. Malyarenko1, I. A. Shelykh2. 1. A.F.Ioffe Physico-Technical Institute, St.Peterburg, Russia; 2. St. Peterburg State Technical University, St.Peterburg, Russia.
Dynamics of entangled states of nuclear spins in solids. S. I. Doronin. Institute of Problems of Chemical Physics, RAS, Chernogolovka, Russia.
Noise-resistant quantum key distribution protocol. D. V. Sych, B. A. Grishanin, and V. N. Zadkov. International Laser Center and Department of Physics M. V. Lomonosov Moscow State University, Moscow, Russia.
Electrical Properties of Metal Films Prepared by Selective Removal of Atoms. B. Gurovich1, K. Prikhodko1, A. Domantovsky1, D. Dolgy1, E. Ol'shansky1, B. Aronzon1, Y. Lunin2. 1. Russian Research Center "Kurchatov Institute", Moscow, Russia; 2. Institute for System Studies, RAS, Moscow, Russia.
Increasing of electric strength in the pseudospark gap with a high pulse repetition rate. Yu. D. Korolev, O. B. Frants, V. G. Geyman, R. V. Ivashov, N. V. Landl, I. A. Shemyakin. Institute of High Current Electronics, Tomsk, Russia.
Heat - resistant light-sensitive polymer compositions based on poly(o - hydroxyamides) - heat-resistant photolacks. L. Rudaya1, N. Klimova1, T. Yourre1, G Lebedeva2, I. Sokolova3. 1. St. Petersburg State Technological Institute (Technical University), St. Petersburg, Russia; 2. Institute of Macromolecular Compounds, RAS, St. Petersburg, Russia; 3. St. Petersburg State Electr technical University (LETI), St. Petersburg, Russia.
Pre-exposure thermal treatment of photoresist layers under elevated pressure as applied to lithographic technologies of photomask and integrated microcircuit manufacture. V. A. Peremyshchev1, V. V. Martynov2. 1.Technology. Equipment. Materials company, Moscow, Russia; 2. Submicro Research and Development Association, Zelenograd, Russia.
Discharge pumped table-top EUV laser on dense plasma of multi charged ions. V. Burtsev, E. Bol'shakov, V. Chernobrovin, N. Kalinin. Efremov Scientific Research Institute of Electrophysical Apparatus, St. Petersburg, Russia.
Automatical Optimization of Pupil Filters for High-Resolution Photolithography. M. Machin, M. Gitlin, N. Savinskii. Institute for Microelectronics and Informatics of RAS.
The effect of imaging forces in ultra thin gate insulator on the tunneling current and its oscillations at the region of transition from the direct tunneling to the Fowler-Nordheim tunneling. E. I. Goldman, N. F. Kukharskaya, G. V. Chucheva and A. G. Zhdan. The Institute of Radio Engineering and Electronics, RAS.
Initiated tunnel current through thin gate oxide generation minority carriers in Si-MOS-structures. G. V. Chucheva1, A. S. Dudnikov2, E. I. Goldman1, N. A. Zaitsev2, A. G. Zhdan1. 1. The Institute of Radio Engineering and Electronics, RAS; 2. JSC "Mikron Corporation".
Investigation of the leakage currents in SOI MOSFET with the nanoscale channel length. A. A. Frantsusov, N. I. Bojarkina, M. A. Ilnitsky, V. P. Popov, L. N. Safronov. Institute of Semiconductor Physics, RAS, Novosibirsk, Russia.
Gamma radiation tolerance of 0.5 µm SOI MOSFETs. O. V. Naumova, A. A. Frantsuzov, V. P. Popov. Institute of Semiconductor Physics, Siberian Branch of RAS, Novosibirsk, Russia.
The application of Thomas-Fermi equation for the modelling of an intra-atomic potential in the ultrathin gate dielectric. G. Krasnikov, A. Eremenko, N. Zaitsev, I. Matyushkin. Research and Development Institute for Molecular Electronics and Plant MICRON, Moscow, Zelenograd, Russia.
Optical and photoelectrical characterization of as-deposited and annealed PECVD polysilicon thin film. A. V. Khomich1, V. I. Kovalev1, A. S. Vedeneev1, A. G. Kazanskyi2, P. A. Forsh D. He2, X. Q. Wang3, H. Mell4. 1. Institute of Radiotechnics and Electronics, RAS, Fryazino, Russia; 2. M.V. Lomonosov Moscow State University, Department of Physics, Moscow, Russia; 3. Lanzhou University, Department of Physics School of Physical and Technology, Lanzhou, China; 4. Philipps-Universitat Marburg, Fachdereich Physik, Marburg, Germany.
Polycrystalline silicon for semiconductor devices. D. Milovzorov. Institute of Physics and Technology, RAS, Moscow, Russia.
Ion synthesis of silicate glasses: simulation, process engineering and applied aspects. S. Krivelevich, E. Buchin, Yu. Denisenko, A. Tsyrulev. Institute of Microelectronics and Informatics, RAS, Yaroslavl, Russia.
Investigation of energy levels in Si subjected high-temperature diffusion annealing in Zn atmosphere. Kornilov B.V., Privezentsev V. V. Institute of Physics and Technology, RAS, Moscow, Russia.
Functional Diagnostics of the Metal Diffusion in Silicon. A. E. Berdnikov, V. N. Gusev, A. A. Popov, V. I. Rudakov, V. D. Chernomordik. Institute of Microelectronics and Informatics RAS, Yaroslavl, Russia.
Development of the scanning spreading resistance microscopy for nanoscale structure properties investigation. V. Shevyakov1, S. Lemeshko2, A. Tihomirov1. 1. Moscow Institute of Electronic Engineering, Zelenograd, Moscow, Russia; 2. Molecular Devices and tools for nanotechology Co., Zelenograd, Moscow.
Application of piezoelectric monocrystals in devices of exact positioning of probe microscopes. V. Antipov, M. Malinkovich, Yu. Parkhomenko. Moscow Steel and Alloys Institute, Russia.
Low-Frequency Noise in Disordered Silicon Systems. M. I. Makoviychuk1, E. O. Parshin1, A. L. Chapkevich2. 1. Institute of Microelectronics & Informatics, RAS, Yaroslavl, Russia; 2. Moscow Committee of Science and Technologies, Moscow, Russia.
Characterization of nanocrystals in porous germanium layer by X-RAY diffraction. A. Lomov1, V. Bushuev2, V. Karavanskii 3. 1. A.V. Shubnikov Institute of Crystallography, RAS, Moscow, Russia; 2. M.V. Lomonosov Moscow State University, Moscow, Russia; 3. Institute of Natural Sciences Center of General Physics Institute, RAS, Moscow.
Advanced capabilities of binary modulation polarization ellipsometry. V. I. Kovalev, A. I. Rukovishnikov, A. V. Khomich. Institute of Radiotechnics and Electronics, RAS, Fryazino, Russia.
Nonlinear-optical microscopy for polarization switching in thin ferroelectric films. E. Mishina1, N. Sherstyuk1, K. Vorotilov1, A. Sigov1, Th. Rasing2, V. M. Mukhortov3. 1. Moscow State Institute of Radioengineering, Electronics and Automation, Russia; 2. University of Nijmegen, The Netherlands; 3. Institute of General Physics, RAS, Moscow, Russia.
PMMA and polystyrene films modification under ion implantation studied by spectroscopic ellipsometry. A. V. Leontyev1, V. I. Kovalev2, A. V. Khomich2, F. F. Komarov1. 1. Belorussian State University, Minsk, Belarus; 2. Institute of Radiotechnics and Electronics, RAS, Fryazino, Russia.
Ellipsometric investigation of buried layers in ion-implanted and annealed silicon and diamond structures. V. I. Kovalev1, A. V. Khomich1, A. I. Rukovishnikov1, R. A. Kmelnitskyi2, E. V. Zavedeev3. 1. Institute of Radiotechnics and Electronics, RAS, Fryazino, Russia; 2. Lebedev Physical Institute, RAS, Moscow, Russia; 3. General Physics Institute, RAS, Moscow, Russia.
Computer Simulation Application for Improving Correctness of Data Obtained by Magnetic Force Microscope. D. Ovchinnikov, A. Bukharaev. Zavoisky Physical Technical Institute of RAS, Kazan, Russia.
Investigation of dissolution process of implanted silicon dioxide. N. Nurgazizov, A. Bukharaev. Zavoisky Physical Technical Institute of RAS, Kazan, Russia.
Wave-ordered structure on silicon surface and its modification by wet and dry etching. D. S. Kibalov, I. V. Zhuravlev, P. A. Lepshin, G. F. Smirnova, I. I. Amirov, V. K. Smirnov. Institute of Microelectronics and Informatics, RAS, Yaroslavl, Russia.
Bi films for the fabrication of nanowires by the probe lithography. A. Chernykh, A. Il'in, O. Kononenko, G. Mikhailov. Institute of Microelectronics Technology & High Purity Materials, RAS, Chernogolovka, Moscow.
Current transport and photoelectric properties of silicon nanocomposite - porous SiC. V. I. Sokolov1, M. V. Zamoryanskya1, L. V. Grigoryev2, V. A. Berbetc2, V. E. Ter-Nersysiants2. 1. Ioffe Physicotechnical Institute, St. Peterburg, Russia; 2. St.Petersburg University, Physical Research Instituteб Russia.
The research system for experiments on studying the gas medium influence on the electroforming process. V. Levin, V. Mordvintsev. Institute of Microelectronics and Informatics, Russian Academy of Sciences, Yaroslavl, Russia.
Current transport in thermooxidized silicon nanocomposite. V. I. Sokolov, M. V. Zamoryanskya, L. V. Grigoryev, V. A. Berbetc, V. E. Ter-Nersysiants 1. Ioffe Physicotechnical Institute, St.Petersbyrg, Russia; 2. St.Petersburg University, Physical Research Institute.
An Investigation into Nano-Sized Fractal Film Structures. I. Serov 1, G. Lukyanov2, V. Margolin 1 , N. Potsar 3 , I. Soltovskaya 1 , V. Fantikov 3. 1. Aires New Medial Technologies Foundation, St. Petersburg, Russia; 2. St. Petersburg State Institute of Fine Mechanics and Optics (Technical University); 3. St. Petersburg State Electrotechnical University (LETI), St. Petersburg, Russia.
The features of electroforming in open sandwich structures Si-SiO2-W for silicon of different types of conductivity. V. Mordvintsev, S. Kudryavtsev, V. Levin. Institute of Microelectronics and Informatics, Russian Academy of Sciences, Yaroslavl, Russia.
Influence of electrostatic interaction between a conducting cantilever and a metal film on the local anodic oxidation. A. N. Bulatov, V. K. Nevolin. Moscow State Institute of Electrical Engineering, Zelenograd, Moscow, Russia.
Electron Beam Induced Deposition of Iron Carbon Nanostructures from Iron Dodecacarbonyl Vapour. M. A. Bruk1, E. N. Zhikharev2, E. I. Grigoriev1, A. V. Spirin1, V. A. Kalnov2, I. E. Kardash1. 1. Kaprov Institute of Physical Chemistry, Moscow, Russia; 2. Physics & Technology Institute of Russian Academy of Science, Moscow, Russia.
PZT nanostructures templated into porous alumina membranes. V. A. Vasil'ev 1 , E. D. Mishina 1 , K. A. Vorotilov 1 , A. S. Sigov 1 , O. Zhigalina 2 , N. M. Kotova 3. 1. Moscow State Institute of Radioengineering, Electronics and Automation, Moscow, Russia; 2. Institute of Crystallography, Russian Academy of Sciences, Moscow, Russia; 3 Institute of Physical Chemistry, Moscow, Russia.
Diffusive and ballistic regime for transfer resistances. V. Yu. Vinnichenko, A. V. Chernykh and G. M. Mikhailov. Institute of the Microelectronic Technology and High Pure materials RAS , 142432 , Chernogolovka , Moscow Region , Russia.
MFM study and computer simulation of domain structures in permalloy elements. A. G. Temiryazev. Institute of Radioengineering & Electronics RAS, Fryazino, Russia.
Fast ferroelectric domain switching probed by second harmonic generation. E. D. Mishina 1 , N. E. Sherstyuk 1 , A. S. Sigov 1 , A. V. Mishina 2 , V. M. Mukhortov3 , Th. Rasing 4. 1. Moscow State Institute of Radioengineering, Electronics and Automation, Moscow, Russia; 2. Tver State Technical University, Tver, Russia; 3. Institute of General Physics, Russian Academy of Science, Moscow, Russia, 4. University of Nijmegen, The Netherlands.
Ferroelectric nanostructures sputtered on alumina membranes. E. D. Mishina 1, V. I. Stadnichuk 1, A. S. Sigov 1, Yu. I. Golovko 2, V. M. Mukhorotov 2, Th. Rasing 3. 1. Moscow State Institute of Radioengineering, Electronics and Automation, Moscow; 2. Institute of General Physics, Russian Academy of Science, Moscow, Russia. 3. University of Nijmegen, The Netherlands.
FMR investigation of permalloy array structures. Yu. A. Filimonov1, S. A. Nikitov2, A. V. Butko3, A. V. Kozhevnikov1, A. A. Veselov1, S. L. Vysotsky. 1. Institute of Radioengineering & Electronics, RAS, Saratov Department, Saratov, Russia; 2. Institute of Radioengineering& Electronics, RAS, Moscow, Russia.
Influence of growth temperature on the easy magnetization axis switch and domain structure in Fe/GaAs(100) structures. Yu. Filimonov, A. Dzhumaliev, A. Kozhevnikov, S. Vysotsky. Institute of Radioengineering & Electronics, RAS, Saratov Department, Saratov, Russia.
Tomographic reconstruction of space plasma inhomogeneities in wide aperture plasma technology equipment under strong restriction on the points of view. K. V. Rudenko, A. V. Fadeev, A. A. Orlikovsky, and K. A. Valiev. Institute of Physics and Technology RAS, Moscow, Russia.
Etching mechanism of Au thin films in Cl2/Ar inductively coupled plasma. A. Efremov 1,2, V. Svettsov 1, C. - I. Kim 2. 1. Ivanovo State University of Chemistry & Technology, Ivanovo, Russia; 2. Chung-Ang University, Seoul, Korea.
Investigation of influence of low energy ion beam parameters on process of Reactive Ion Beam Synthesis (RIBS) of thin films. Y. P. Maishev, S. L. Shevchuk. Institute of Physics and Technology RAS, Moscow, Russia.
Application RIE system in precise piezoelectric quartz resonators and filters manufacture. V. Galperin, V. Zuev. OAO Angstrem, Zelenograd, Russia.
The equation of a two-dimensional island growth on the incommensurable monocrystalline substrate. Yu. N. Devyatko, S. V. Rogozhkin, A. V. Fadeev. Moscow engineering-physical institute (state university), Moscow, Russia.
The mathematical modeling of the polymerization processes during the high-temperature oxidation of silicon. G. Krasnikov, A. Eremenko, N. Zaitsev, I. Matyushkin. Research and Development Institute for Molecular Electronics and Plant MICRON Moscow, Zelenograd, Russia.
Defects in YSZ films induced by electric breakdowns during magnetron deposition on Si substrate. V. G. Beshenkov, V. A. Marchenko, A. G. Znamenskii. Institute of Microelectronics Technology, Russian Academy of Sciences, Chernogolovka, Russia.
Application of modified moments method for kinetics description of nano-, micro -particles formation in gas phase. A. Durov, M. Deminsky, M. Strelkova, B. Potapkin. RRC "Kurchatov Institute", 123182, Kurchatov sq. 1, Moscow, Russia.
First principle calculations of interactions of ZrCl4 precursors with bare and hydroxylated ZrO2 surface. I. M. Iskandarova 1, A. A. Knizhnik 1, E. A. Rykova 1, A. A. Bagatur'yants 1, B. V. Potapkin 1, A. A. Korkin 2. 1. Kinetic Technologies Ltd., Moscow, Russia; 2. Semiconductor Products Sector, Motorola Inc., Mesa, USA.
Vanadium reactive magnetron sputtering in mixed Ar/O2 discharges. V. A. Marchenko. Institute of Microelectronics Technology, Russian Academy of Sciences, Chernogolovka, Russia.
Some properties of titanium nitride films deposited by reactive magnetron sputtering. V. Bochkaryov, S. Kudryavtsev, V. Mordvintsev, N. Timina, L. Tsvetkova. Institute of Microelectronics and Informatics, Russian Academy of Sciences, Yaroslavl, Russia.
Structural Transition in Amorphous Silicon Deposited by Low Frequency Discharge. A. A. Popov1, A. E. Berdnikov1, V. D. Chernomordik1, Yu. A. Munakov1, M. D. Efremov2, V. A. Volodin2. 1. Institute of Microelectronics and Informatics RAS, Yaroslal, Russia; 2. Institute of Semiconductors Physics, Siberian Branch of RAS, Novosibirsk, Russia.
Nb epitaxy at the time of low-energy ion bombardment conditions. V. V. Naumov, V. F. Bochkarev, A. A. Goryachev, A. S. Kunitsyn, E. I. Ilyashenko, P. E. Goa, T. H. Iohansen. 1. Institute of Microelectronics and Computer Science, RAS, Yaroslavl, Russia; 2. University of. Oslo, Norway.
Contact systems for sub-100 nm CMOS technology. I. A. Horin 1, A. A. Orlikovsky1, A. G. Vasiliev 1,2, A. L. Vasiliev 3,4. 1. Institute of Physics & Technology (IPT), Russian Academy of Sciences, Moscow, Russia; 2. Moscow State Institute of Radioengineering, Electronics and Automation (Technical University), Moscow, Russia; 3. Institute of Crystallography, Russian Academy of Sciences, Moscow, Russia; 4. Department of Metallurgy and Materials Eng., Institute of Materials Science, Unit 3136, University of Connecticut, Storrs, USA.
The polyimides photoresist for multilevel- interconnect VLSI technology. N. Savinski. Laboratory of Molecular Electronics, Institute of Microelectronics and Informatics of RAS, Yaroslavl, Russia.
Epitaxial erbium silicide contact to silicon-germanium. Zs. J. Horvath 1, G. Molnar1, G. Peto 1, I. Dezsi 2, R. Loo 3, M. Caymax 3, K. Z'd'ansky 4. 1. Hungarian Academy of Sciences, Research Institute for Technical Physics and Materials Science, Budapest 114, Hungary; 2. KFKI Research Institute for Particle and Nuclear Physics of the Hungarian Academy of Sciences, Budapest 114, Hungary; 3. IMEC, Kapeldreef 75, B-3001 Leuven, Belgium; 4. Institute of Radio Engineering and Electronics, Academy of Sciences of the Czech Republic, Chaberska 57, Prague 8, 18251, Czech Republic.
Electrical behaviour of Al/Si and Al/SiGe junctions: Effect of surface treatment. Zs. J. Horvath 1, L. K. Orlov 2, M. Adam 1, A. V. Potapov 2, I. Szabo 1, V. A. Tolomasov 2, B. Cvikl 3, Yu. M. Ivanov 4, D. Korosak 3, E. Pashaev 4. 1. Hungarian Academy of Sciences, Research Institute for Technical Physics and Materials Science, Budapest, Hungary; 2. Institute for Physics of Microstructures, RAS, Nizhny Novgorod, Russia; 3. Faculty of Civil Engineering, University of Maribor, Maribor, Slovenia, and J. Stefan Institute,Ljubljana, Slovenia; 4. Institute of Crystallograhpy, RAS, Moscow, Russia.
Modeling diffusion of ion implanted impurity in crystalline silicon under a temperature gradient. V. Rudakov, V. Ovcharov, A. Bashmakov. Institute of Microelectronics and Informatics, Russian Academy of Sciences, Yaroslavl, Russia.
Modeling of Phosphorous Diffusion in Ion-Implanted Si in Condition of Dopant Transient Enhanced Out-Diffusion at Vacuum Rapid Thermal Annealing. V. Kagadei 1, A. Markov 2, D. Proskurovsky 2. 1. Research Institute of Semiconductor Devices, Tomsk, Russia; 2. Institute of High Current Electronics, Tomsk, Russia.
Precision studies of semiconductor superlattices by X-Ray diagnostic methods. E. Pashaev 1, S. Yakunin 1, A. Zaitsev 2. 1. Institute of Crystallography, Russian Academy of Sciences, Moscow, Russia; 2. Moscow Institute of Radio Engineering and Automatics, Moscow, Russia.
Determining the surface electrostatic potential ?s of a dielectric bordering semiconductor using the method of ? 's (?s)-diagrams. G. V. Chucheva, N. F. Kukharskaya, A. G. Zhdan. The Institute of Radio Engineering and Electronics, RAS, Moscow, Russia.
Fabrication of 3D photonics structures. S. Zaitsev, M. Knyazev, S. Dubonos. Institute of Microelectronics Technology, RAS, Chernogolovka, Russia.
Quality of silicon macropores produced by deep anodic etching (DAE) depending on silicon wafer resistivity and parameters of the DAE procedure. V. V. Starkov, E. Yu. Gavrilin, A. F. Vyatkin, S. V. Dubonos, and M. A. Knyasev. Institute of Microelectronics Technology, RAS, Moscow district, Chernogolovka, Russia.
Investigation of a nucleation stage of macropore formation in p-type silicon. V. V. Starkov, E. Yu. Gavrilin, A. F. Vyatkin. Institute of Microelectronics Technology, Russian Academy of Sciences, Moscow district, Chernogolovka, Russia.
Porous anodic alumina for photonics and optoelectronics. S. Gavrilov 1, D. Kravtchenko 1, A. Zheleznyakova 1, V. Timoshenko 2, P. Kashkarov 2, V. Melnikov2, G. Zaitsev 2, L. Golovan 2. 1. Moscow Institute of Electronic Technology, Moscow, Russia; 2. Physics Department, M.V. Lomonosov Moscow State University, Moscow, Russia.
Study on interaction of organic luminophors with the modified porous alumina. G. Gorokh 1, A. Kukhta 2, Yu. Koshin 1, D. Solovei 1, A. Poznyak 1, A. Mozalev. 1. Belarusian State University of Informatics and Radioelectronics, Minsk, Belarus; 2. Institute of Molecular and Atomic Physics, Minsk, Belarus.
Design and manufacturing of passive - matrix for organic light-emitting micro display. M. Gitlin, N. Savinski, K. Truhanov, M. Kachalov, E. Savinskaya. Laboratory of Molecular Electronics, Institute of Microelectronics and Informatics of RAS, Yaroslavl, Russia.
The strain distribution in Si lattice of the layer containing в -FeSi2 precipitates. A. Borun, N. Khmelnitskaja, Yu. Parkhomenko, E. Vygovskaja. The Moscow institute of steel and alloys, Moscow, Russia.
Residual Photoresist Removal from Si and GaAs Surface by Atomic Hydrogen Flow Treatment. E. Anischenko 1, V. Diamant 2, V. Kagadei 1, E. Nefeyodtsev 3, K. Oskomov 3, D. Proskurovsky 3, S. Romanenko 3. 1. Research Institute of Semiconductor Devices, Tomsk, Russia; 2. Atomic Hydrogen Technologies, Katzrin, Israel; 3. Institute of High Current Electronics, Tomsk, Russia.
Structural characterization of undoped and Si-doped AlGaAs/GaAs double quantum wells separated by a thin AlAs layer. A. Lomov 1, M. Chuev 2, G. Galiev 3, E. Klimov 3, A. Cherechukin 3. 1. A.V. Shubnikov Institute of Crystallography, RAS, Moscow, Russia; 2. Institute of Physics & Technology of RAS, Moscow, Russia; 3. Institute of UHF Semiconductor Electronics of RAS, Moscow, Russia.
Formation of multilayer Co/Cu and Ni/Cu structures by magnetron sputtering and electron-beam evaporation. I. A. Horin1, V.F. Meshcheryakov2, A. A. Orlikovsky1, K. V. Timonin3, A. G. Vasiliev1,2. 1. Institute of Physics & Technology (IPT), RAS, Moscow, Russia; 2. Moscow State Institute of Radioengineering, Electronics and Automation (Technical University), Moscow, Russia; 3. Institute of Crystallography, RAS, Moscow, Russia.
Photoluminescence spectroscopy of quantum well GaAs/InGaAs/GaAs in electrical field. Yu. V. Khabarov, L. E. Velikovsky. Institute of UHF Semiconductor Electronics, Russian Academy of Sciences, Moscow, Russia.
Submicron probes for Hall magnetometry over the extended temperature range from helium to room temperatures. S. V. Morozov 1, S. V. Dubonos 1, K. S. Novoselov1,2, A. K. Geim 2. 1. Institute of Microelectronics Technology and High Purity Material, RAS, Chernogolovka, Russia; 2. University of Manchester, Manchester, UK.
Argon-oxygen ion-plasma treatment modifies photoluminescence spectrum of porous silicon. B. M. Kostishko, S. J. Salomatin. Ul'yanovsk State University, Ul'yanovsk, Russia.
Method of electrophysical parameters determination in semiconductors by means of microstripe resonator. V. V. Sidorin, A. V. Sidorin. Moscow State Institute of Radioenginiriing, Electronics and Automation (Technical University) MIREA, Moscow, Russia.
Modeling Atomic Hydrogen Diffusion in GaAs. V. Kagadei 1, E. Nefyodtsev 2. 1. Research Institute of Semiconductor Devices, Tomsk, Russia; 2. Institute of High Current Electronics, Tomsk, Russia.
Dry Cleaning of Fluorocarbon Residues by Atomic Hydrogen Flow. E. Anischenko 1, V. Diamant 2, V. Kagadei 1, E. Nefyodtsev 3, D. Proskurovsky 3, S. Romanenko 3. 1. Research Institute of Semiconductor Devices, Tomsk, Russia; 2. Atomic Hydrogen Technologies, Katzrin, Israel; 3. Institute of High Current Electronics, Tomsk, Russia.
Application of Atomic Hydrogen Treatment in Si and GaAs Based Devices Technology. V. Kagadei 1, E. Nefyodtsev 2, D. Proskurovsky 2, S. Romanenko 2. 1. Research Institute of Semiconductor Devices, Tomsk, Russia; 2. Institute of High Current Electronics, Tomsk, Russia.
F+, B+ ion implantation into GaAs multilayer heterostructures. M. Tigishvili, N. Gapishvili, R. Melkadze, M. Ksaverieva, T. Khelashvili. Research & Production Complex (RPC) " Electron Technology" of Tbilisi State University, Tbilisi Georgia.
InAlAs/InGaAs isomorphic HEMT's with cut off frequency ft>100GHz for mm-wave applications. V. G. Mokerov, Yu. V. Fedorov, A. S. Bugaev, M. Yu. Scherbakova, A. T. Grigoriev, E. N. Enyushkina. 1. Institute of Ultra High Frequency Semiconductor Electronics of RAS (IUHFSE RAS) Moscow,Russia.
Logic gates based on resonant-tunneling diodes. A. Gorbatsevich 1, I. Kazakov 2, M. Kirillov 1, B. Nalbandov 1, S. Schmelev 1, A. Tsibizov 2. 1. Moscow Institute of Electronic Technology (Technical University), Moscow, Russia; 2. P.N. Lebedev Physical Institute, RAS, Moscow, Russia.
Liquid phase epitaxial growth and optical properties of InxGa1-xAsySb1-y on GaSb B. Podor, V. Rakovics, J. Balazs, A. L. Toth. Hungarian Academy of Sciences, Research Institute for Technical Physics and Materials Science, Budapest, Hungary.
Design of P-HEMT-MMIC chipset for X-band active phased array radar. V. G. Mokerov, B. G. Nalbandov, E. N. Ovcharenko, T. I. Kuznetzova, D. L. Gnatyuk, A. S. Bugaev, Yu. V. Fedorov. Institute of UHF Semiconductor Electronics of RAS, Moscow, Russia.
Au electrical contacts to GaSb based epitaxial structures. Zs. J. Horvath, V. Rakovics, B. Podor. Hungarian Academy of Sciences, Research Institute for Technical Physics and Materials Science, Budapest 114, Hungary.
The process of low-temperature diffusion in production of the semiconductor devices. A. Bibilashvili, Z. Bokhochadze, A. Gerasimov, N. Gochaleishvili, R. Kazarov, I. Lomidze, E. Maziashvili, S. Sikharulidze. Microelectronics chair of Tbilisi State University, Tbilisi, Georgia.
Optimization of double barrier doped heterostructures lGaAs/GaAs/AlGaAs/GaAs for ultra high frequency FET. G. Galiev 1, V. Kaminskii 1, V. Kul'bachinskii 2. 1. Institute of UHF semiconductor electronics, RAS, Moscow, Russia; 2. Moscow State University, Moscow, Russia.
Electronic band structure and semimetal-semiconductor transition in InAs/GaSb quantum wells. I. Lapushkin 1, A. Zakharova 1, S. T. Yen 2, K. A. Chao 3. 1. Institute of Physics and Technology of RAS, Moscow; 2. Department of Electronics Engineering, National Chiao Tung University, Hsinchu, Taiwan, Republic of China 3. Department of Physics, Lund University, Lund, Sweden.
The influence of classical and quantum-mechanical regions interaction on IV-characteristics of RTD, based on different materials. I. I. Abramov, I. A. Goncharenko, N. V. Kolomejtseva. Belarusian State University of Informatics and Radioelectronics, Minsk, Belarus.
Room temperature photoreflectance investigation of undoped and doped GaAs/AlGaAs quantum well structures. L. P. Avakyants 1, P. Yu. Bokov 1, A. V. Chervyakov 1, G. B. Galiev 2, E. A. Klimov 2. 1. Physics faculty of M.V. Lomonosov Moscow State University, Moscow, Russia; 2. Institute of UHF Semiconductor Electronics RAS, Moscow, Russia.
Negative magnetoresistance due to electron-electron interaction in InGaAs/InP heterostructures. B. Podor 1,2, I. G. Savel`ev 3, Gy. Kovacs 4, G. Remenyi 5. 1. Hungarian Academy of Sciences, Research Institute for Technical Physics and Materials Science, Budapest, Hungary; 2. Budapest Polytechnic, Kando Kalman Faculty of Electrical Engineering, Institute of Microelectronics and Technology, Budapest, Hungary; 3. A. F. Ioffe Physical Technical Institute, RAS, St. Petersburg, Russia; 4. Department of General Physics, Eotvos Lorand University, Budapest, Hungary; 5. CNRS Centre de Recherches sur les Tres Basses Temperatures et Laboratoire des Champs Magnetiques Intenses, Grenoble, France.
Influence of a transversal electric field to acoustic charge transport in the GaAs heterostructures. V. I. Еgоrкin, А. К. Моrоchа. Moscow Institute of Electronic Technology, Moscow, Russia.
Spin-dependent tunneling through a symmetric barrier structure with buried electrical polarization. V. Kantser, I. Bejenari, G. Birliba. LISES Institute of Applied Physics ASM, Kishinev, Moldova.
Change of a resistance and real structure under x-ray irradiation. V. Peregudov 1, V. Kirikov 2, E. Pashaev 2, S. Yakunin 2, A. Zaitsev 3, S. Tikhomirov2. 1. RRC "Kurchatov Institute", Moscow, Russia; 2. Institute of Crystallography, RAS, Moscow, Russia; 3. Moscow Institute of Radio Engineering and Automatics, Moscow, Russia.
Uncooled microbolometer based on microbridge structure technology. Yu. Chetverov2, S. Shapoval1. 1. Institute of Microelectronics Technology RAS, Chernogolovka, Russia; 2. R&D Corporation "Tsiklon", Moscow, Russia.
An investigation of relative current sensitivity of bipolar magnetotransistor. R. D. Tikhonov. SMC "Technological Centre" at the MSIEE, Moscow, Russia.
Numerical simulation of piezoresistive effect by ISE TCAD tools for microsystems engineering elements. T. Kroupkina1, O. Pankratov2, V. Amelichev2. 1. Moscow Institute of Electronic Engineering, Moscow, Russia; 2. SMC "Technological Center" Moscow, Russia.
The optimization of relative current sensitivity of bipolar magnetotransistor. A. Kozlov1, M. Reveleva1, R. Tikhonov2. 1. Moscow State Institute of Electronic Technology (Technical University), Moscow, Russia; 2. SMC "Technological Center" at the MSIEE, Moscow, Russia.
Investigation of the pressure influence on the characteristics of the silicon micromechanical oscillator. S. Timoshenkov, A. Boiko, V. Shilov, V. Rubchic. Moscow Institute of Electronic Engineering (Technical University), Moscow, Russia.
Microtechnologies & MEMS projects. E. N. Pyatishev, Y. Akulshin, A. Kazakin, M. Lurie. St. Petersburg State Polytechnical University, St. Petersburg, Russia.
To theory of electrophysical modification of microelectronic devices. V. M. Bogomol'nyi. Moscow State University of Service. Cherkizovo. Russia.
Phonon-induced decoherence of solid state charge-based quantum computer. L. Fedichkin 1, A. Fedorov 2, M. Yanchenko 3. 1. Center for Quantum Device Technology, Department of Physics and Department of Electrical and Computer Engineering, Clarkson University, Potsdam, NY, USA. 2. Department of Physics, Clarkson University, Potsdam, NY, USA. 3. Institute of Physics and Technology, RAS, Moscow, Russia.
Microscale regulation of quantum fluctuations of light at nonlinear selective reflection. Ja. Fofanov. Institute for Analytical Instrumentation, RAS, St. Petersburg, Russia.
Noise detector on base of a system of asymmetric loops with the persistent current. V. V. Aristov, S. V. Dubonos, V. I. Kuznetsov, A. A. Firsov, A. V. Nikulov, I. N. Zhilyaev. Institute of Microelectronics Technology and High Purity Materials, RAS, Chernogolovka, Russia.
Phase response of spin-dependent single-hole tunneling in silicon one-dimensional rings. N. T. Bagraev1, A. D. Bouravleuv1, W. Gehlhoff2, L. E. Klyachkin1, A. M. Malyarenko1, I. A. Shelykh3. 1. A. F. Ioffe Physico-Technical Institute, St.Petersburg, Russia; 2. Technische Universitat Berlin, Institut fur Festkorperphysik, Berlin, Germany; 3. St.Petersburg State Technical University, St.Petersburg, Russia.
Surface scattering in giant- magnetoresistance multilayered structures. V. V. V'yurkov, S. D. Ananiev, A. A. Orlikovsky. Institute of Physics and Technology of the RAS, Moscow, Russia.
Structure of Nano-Cavities by Magnetic Resonance Methods. E. B. Fel'dman, M. G. Rudavets. Institute of Problems of Chemical Physics, RAS, Chernogolovka, Russia.
About parallel computing on spatial rotations in spin mesomorphic structures. M. M. Nesterov, V. I. Tarkhanov. 1. St.Petersburg Institute of Informatics and Automation, RAS, St. Petersburg, Russia; 2. St. Petersburg State Polytechnical University, St. Petersburg, Russia.
Quantum States Estimation: Root Approach. Yu. I. Bogdanov. OAO "Angstrem", Moscow, Russia.
The scanning single ion implanter for solid-state quantum computer. V. Zhukov. Institute for Informatics and Automation, RAS, Saint-Petersburg, Russia.
Regularities of power consumption in quasiadiabatic logical gates. V. Staroselsky, V. Losev. Moscow State Institute of Electronic Engineering, Moscow, Russia.
About application of logic opportunities of electron-hole plasma in the information - computing technologies. H. Karayan, A. Makaryan, G. Nikogosyan. Yerevan State University, Yerevan, Armenia.
Physical calculations and computers. H. Karayan, Sh. Martirosyan, H. Vardanyan. Yerevan State University, Yerevan, Armenia.
Correlation Characteristics in Multilevel Clustering Fault Model. Yu. I. Bogdanov 1, N. A. Bogdanova 2, A. V. Rudnev 1. 1. OAO Angstrem, Moscow, Russia; 2. Moscow Institute of Electronic Engineering (Technical University), Moscow, Russia.
The tools for numerical "renascence" procedure of electrical and processes parameters of complex devices of the integrated circuits. I. I. Abramov1, V. A. Dobrushkin 2, V. A. Tsurko 3, V. A. Zhuk 4. 1. Belarusian State University of Informatics and Radioelectronics, Minsk, Belarus; 2. Brown University, Providence, USA; 3. National Academy of Scienses, Institute of Mathematics, Minsk, Belarus; 4. Silvaco Data Systems Inc., Santa Clara, USA.

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