Source: https://mipt.ru/english/persons/researchers/
Timestamp: 2019-04-23 10:17:23+00:00

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The submicron Josephson structure and research of these structures with scanning probe microscopy (STM, AFM, SNOM). Superconducting and ferromagnetic nano structures on surfaces of semiconductors and insulators. low-temperature scanning tunneling microscopy/spectroscopy. Designing of the new highly technological equipment. Fabrication of mesoscopic SN- and SF- hybrid structures via e-beam lithography and magnetron evaporation, transport measurements in magnetic field at low temperatures (in dilution fridge). Investigations of Topological Insulators.
Ph.D. degree in Physics from Moscow Institute of Physics and Technology, Moscow, Russia, (“Physico-chemical processes behind strong shock wave front in CO2-N2 mixtures”, Dolgoprudny, 2005) M.S. degree from Moscow Institute of Physics and Technology, Moscow, 2002. B.S. degree from Moscow Institute of Physics and Technology, Moscow, 2000.
2008–2013, Researcher, Laboratory of physical kinetics, MIPT, Dolgoprudny. 2005–2008, Researcher, Physics of nonequilibrium systems laboratory, MIPT, Dolgoprudny. 2002-2005, Junior researcher, Physics of nonequilibrium systems laboratory, MIPT, Dolgoprudny. 2008–2013 Assistant professor, Moscow Institute of Physics and Technology (MIPT), Dolgoprudny. 2002-2008 Assistant, Moscow Institute of Physics and Technology (MIPT), Dolgoprudny.
Gas discharge plasma; plasma-assisted ignition and combustion; strong shock waves; state-to-state chemical kinetics.
2011- 2012– Research engineer, Laboratory for Physics of Plasma (LPP), Ecole Polytechnique,Palaiseau. 2009- 2014– Researcher, Laboratory of Physical Kinetics, MIPT, Dolgoprudny. 2004- 2008– Researcher, Physics of Non-Equilibrium Systems Laboratory, MIPT, Dolgoprudny. 2000- 2004– Junior researcher, Institute for Dynamics of Geospheres of Russian Academy of Science, Moscow. 2008- 2015– Assistant professor, Moscow Institute of Physics and Technology (MIPT), Dolgoprudny.
Gas discharge plasma; plasma-assisted ignition and combustion; strong shock waves.
2012–2013 Research engineer, Instituto di Metodologie Inorganiche e dei Plasmi, Bari.
2009- 2012 Junior researcher, Physics of Non-Equilibrium Systems Laboratory, MIPT, Dolgoprudny.
Gas discharge plasma; plasma-assisted ignition and combustion; numerical simulation.
Major scientific interests are in the field of nano-sized objects and their interaction with biological entities such as cells and living organisms, in particular, synthesis of inorganic particles, coating them with biopolymers, proteins and DNA; self-assembly of multifunctional superstructures via biomolecular interfaces; development of nanoparticle based smart materials; logic-gated and biocomputing structures; biomedical applications of biocompatible nanomaterials such as targeted drug delivery, cell sorting and labeling, hyperthermia of tumors; new label-free optical bio- and chemical sensors for advanced immunoassays; low-noise methods for detection of magnetic nanoparticles in vivo for investigation of nanoparticle behavior in experimental animals, i.e., their toxicity, biotransformation and biodegradation.
Head of Drug Dosage Form Design Lab, PhD of Medical Sciences, lecturer of MIPT «Innovative pharmaceuticals and biotechnology».
1975-1981 - Russian State Medical University, Moscow, Russia. Bio-Medical Faculty, Division of Biophysics. Higher special education, specialization - biophysics 1989-1990 - Russian Medical Military Academy, Saint Petersburg, Russia. Chair of Toxicology, Radiology and Medical Protection. Ph.D. Candidate in medical science (Russian “Candidate of Science” degree), specialization - toxicology. 2003-2006 - Mechanical Engineering Research Institute RAS, Moscow, Russia. Investigations of Biomechanical Systems Laboratory. Postdoctoral researcher (candidate for the Russian “Doctor of Science” degree), specialization - biomechanics.
Carrying out toxicological investigations in vivo and in vitro, determination of toxicometric parameters of substances. Biological specimens preparation (homogenization, preparative centrifugation), measurements of biochemical and biophysical parameters of specimens (spectral, chromatographic, radionuclide and others methods). Preparation of different types emulsions and other dispersed systems, containing biologically active substances. Various kinds of light microscopy in combination with single living cell micromanipulation.
Over 30 years of experimental work in fundamental and applied medico-biological researches of biologically active substances (toxicology, pharmacology, cosmetics). Significant experience in scientific and technical report writing, scientific articles’ publication, presentations of the research findings and results at scientific and trade conferences. Experience in development of new cosmetic and pharmacological products and new brands’ concepts on the basis of investigations of biologically active substances’ mechanisms of actions and its delivery systems. More than 130 publications, including 6 patents. Devoted to researches and creative work; proven superior ability to achieve long-term goals; prefer compromised solution.
2012 — PhD (IPT RAS) in physics and mathematics, thesis "Kinetic phenomena in structures based on graphene and its modifications"
Senior researcher and head of the laboratory.
Sergey Petrovich Kovalenko — the head of the laboratory, Candidate of Biological Sciences, Assistant Professor. The author of over 50 publications in the field of genetic engineering and molecular genetics of cancer, the founder of the Russian company "BioLink" focused on the development and use of genodiagnostic systems in oncology. The scientific director of Bioron Diagnostics GmbH Company (Ludwigshafen,Germany).
Kamil Khafizov — research scientist, Ph.D., Head of Bioinformatics Group, author of over 15 publications in top international scientisic magazines, has ~10 years years of working experience in the leading research institutes in Europe and the United States, an expert in the field of molecular modeling and simulations of protein structures and analysis of biological data, the co-author of the popular bioinformatics product AlignMe for the analysis of the protein homology, the co-author of dozens protein structures (PDB).
Artem Sergeyevich Kasianov — research scientist, Candidate of Physical and Mathemetical Sciences, the author of 4 publications in top international scientisic magazines, the specialist in the development of new methods for the analysis of data obtained with the help of modern sequencing technologies.
Vadim Markovich Govorun — the Head of the Laboratory, Doctor of Biological Sciences, Professor and the Correspondent Member of the Russian Academy of Medical Sciences.
In addition from 1990-2016: about twenty times abroad for research stays in international appreciated universities and research centers, e.g. Lawrence Livermore, Los Alamos, University of Maryland, University of Tokyo, University of Nagoya, University of Osaka, Research Center RIKEN, National Research Center Kurchatov, Lebedev, PALS, University of Brussels, Max-Planck, DESY, EU-XFEL). During this time stayed about 20 months in Russia, 12 month in Japan, 7 months in United states and 5 month at the Max-Planck Institute of Quantum Optics in Germany.
· Member of the "International Advisory Committee" of the "International Conference on Current Developments in Atomic, Molecular & Optical Physics with Applications"
· Spokesperson at UPMC for the formalized collaboration between the "National Research Center Kurchatov" and the Sorbonne University "Pierre and Marie Curie"
In addition, in the last 20 years I have been the Principal Investigator for more than 30 international projects at Free Electron Laser installations (FLASH and LCLS) and high energy/high intensity optical lasers involving laboratories from France, Germany, Russia, United States, Japan, Czech Republic, England, Spain, Portugal, Israel.
· Integration of my proposal to study hollow ions with XFEL's [F.B. Rosmej, R.W. Lee: “Hollow ion emission driven by pulsed x-ray radiation fields”, Europhysics Letters 77, 24001 (2007)] in “XFEL Technical Design Report”, Chapter 6, p. 251-253, DESY 2006, http://www.xfel.net.
2013: "Kurchatov Price", Moscow, awarded in recognition of "New effects in kinetic theory of atomic radiative processes in plasmas"
2001: “Eminent Scientist” of the Research Center RIKEN, Japan, awarded in recognition of "Internationally distinguished achievements in the field of atomic physics"
1991: “Feodor Lynen Price” of the Alexander v. Humboldt Foundation, awarded in recognition of "Excellence in fundamental research"
F. Petitdemange, F.B. Rosmej: “Dielectronic satellites and Auger electron heating : irradiation of solids by intense XUV-Free Electron Laser radiation”, “New Trends in Atomic & Molecular Physics - Advanced Technological Applications“ 76, Springer 2013, editor M. Mohan, p. 91-114, ISBN 978-3-642-38166-9.
F.B. Rosmej: ”X-ray emission spectroscopy and diagnostics of non-equilibrium fusion and laser produced plasmas”, in “Highly Charged Ion Spectroscopic Research”, editors Yaming Zou & Roger Hutton, Taylor and Francis 2012, p. 267-341, ISBN: 978-1-4200-7904-3.
F.B. Rosmej, V.A. Astapenko, V.S. Lisitsa: "Scaling laws for ionization of atomic states by ultra-short electromagnetic pulses", J. Phys. B 49, 025602 (2016).
F.B. Rosmej, R. Dachicourt, B. Deschaud, D. Khaghani, M. Dozières, M. Smîd, O. Renner: "Exotic X-ray Emission from Dense Plasmas", J. Phys. B: Review Special Topics 48, 224005 (2015).
B. Deschaud, O. Peyrusse, F.B. Rosmej: "Generalized atomic physics processes when intense femtosecond XUV- and X-ray radiation is interacting with solids", Europhysics Letters 108, 53001 (2014).
F.B. Rosmej, V.A. Astapenko, V.S. Lisitsa: "Effects of ultrashort laser pulse durations on Fano resonances in atomic spectra", Phys. Rev. A 90, 043421 (2014).
T. Lefevre, A. Escarguel, R. Stamm, L. Gobert-Mouret, F.B. Rosmej: „Investigation of particle diffusion and suprathermal electrons in a magnetized helium plasma column”, Physics of Plasmas 21, 023502 (2014).
D.C. Hochhaus, B. Aurand, M. Basko, B. Ecker, T. Kühl, T. Ma, F.B. Rosmej, B. Zielbauer, P. Neumayer: „X-ray radiographic expansion measurements of isochorically heated thin wire targets”, Physics of Plasmas 20, 062703 (2013).
F.B. Rosmej, B. Deschaud, K. Bennadji, P. Indelicato, J.P. Marquès: “Study of electric dipole matrix elements of He-like ions for X-ray line shape calculations”, Phys. Rev. A 87, 022515 (2013).
X. Li, F.B. Rosmej: “Quantum number dependent energy level shifts of ions in dense plasmas: a generalized analytical approach”, Europhysics Letters 99, 33001 (2012).
E. Galtier, F.B. Rosmej, D. Riley et al.: “Decay of cristaline order and equilibration during solid-to-plasma transition induced by 20-fs microfocused 92 eV Free Electron Laser Pulses”, Phys. Rev. Lett. 106, 164801 (2011).
F.B. Rosmej, K. Bennadji, V.S. Lisitsa: “Dense plasmas effects on exchange energy shifts in highly charged ions: an alternative approach for arbitrary perturbation potentials”, Physical Review A 84, 032512 (2011).
V.A. Astapenko, V.S. Lisitsa, F.B. Rosmej: “Radiation emission in electron-tungsten ions collisions: Polarization vs static channels”, Physics Letters A 375, 2374 (2011).
S.M. Vinko, G. Gregori, B. Nagler, T.J. Whitcher, J.S. Wark, U. Zastrau and E. Förster, S. Mazevet, J. Andreasson, S. Bajt, R.R. Fäustlin, S. Toleikis, and T. Tschentscher, J. Chalupsky, J. Cihelka, V. Hajkova, L. Juha, H. Chapman, T. Dzelzainis, D.Riley, E. Galtier, F.B. Rosmej, P. A. Heimann, M. Jurek, J. Krzywinski, R.W. Lee, A.J. Nelson, R. Sobierajski : “Electronic Structure of an XUV Photo-Generated Solid-Density Aluminum Plasma”, Physical Review Letters 104, 225001(2010).
X. Li, F.B. Rosmej: “Investigation of spin dependent energy level crossings in highly charged ions due to dense plasma environments”, Physical Review A 82, 022503 (2010).
A. Calisti, C. Mossé, S. Ferri, B. Talin, F. Rosmej, L.A. Bureyeva, V.S. Lisitsa : “Dynamic Stark Broadening as Dicke Narrowing Effect”, Phys. Rev. E 81, 016406 (2010).
B. Nagler, U. Zastrau, R. Fäustlin, S.M. Vinko,T. Whitcher, A. J. Nelson, R. Sobierajski, J. Krzywinski, J. Chalupsky, E. Abreu, S. Bajt, T. Bornath, T. Burian, H. Chapman, J. Cihelka, T. Döppner, S. Düsterer, T. Dzelzainis, M. Fajardo, E. Förster, C. Fortmann, E. Galtier, S. H. Glenzer, S. Göde, G. Gregori, V. Hajkova, P. Heimann, L. Juha, M. Jurek, F.Y. Khattak, A.R. Khorsand, D. Klinger, M. Kozlova, T. Laarmann, H.J. Lee, R. W. Lee, K.-H. Meiwes-Broer, P. Mercere, W.J. Murphy, A. Przystawik, R. Redmer, H. Reinholz, D. Riley, G. Röpke, F.B. Rosmej, K. Saksl, R. Schott, R. Thiele, J. Tiggesbäumker, S. Toleikis, T. Tschentscher, I. Uschmann, H. J. Vollmer, J. Wark: „Transparency induced in solid density aluminum by ultra-intense XUV Radiation“, Nature Physics 5, 693 (2009).
An. Tauschwitz, V.G. Novikov, A. Tauschwitz, F.B. Rosmej, J. Abdallah, E. Onkels, J. Jacoby, J.A. Maruhn: “Intense ion beams as a tool for opacity measurements in warm dense matter”, Rapid Communication Applied Physics B 95, 13 (2009).
F.B. Rosmej, R.W. Lee: “Hollow ion emission driven by pulsed x-ray radiation fields”, Europhysics Letters 77, 24001 (2007).
F.B. Rosmej: “An alternative method to determine atomic radiation”, Europhysics Letters 76, 1081 (2006).
F.B. Rosmej, R. Stamm, V.S. Lisitsa: “Convergent coupling of Helium to the H/D background in magnetically confined plasmas”, Europhysics Letters 73, 342 (2006).
F.B. Rosmej, V.S. Lisitsa, R. Schott, D. Riley, A. Delserieys, O. Renner, E. Krousky: “Charge exchange driven X-ray emission from highly ionized plasma jets”, Europhysics Letters 76, 815 (2006).
A. Kozyreva, M. Basko, F.B. Rosmej, T. Schlegel, A. Tauschwitz, D.H.H. Hoffmann: “Dynamic confinement of targets heated quasi-isochorically with heavy ion beam”, Phys. Rev. E 68, 056406 (2003).
F.B. Rosmej, H. R. Griem, R. C. Elton, V. L. Jacobs, J. A. Cobble, A.Ya. Faenov, T.A. Pikuz, M. Geißel, D.H.H. Hoffmann, W. Süß, D. B. Uskov, V.P. Shevelko, R.C. Mancini: “Investigation of charge exchange induced formation of two electron satellite transitions in dense laser produced plasmas”, Phys. Rev. E 66, 056402 (2002).
F.B. Rosmej: "A new type of analytical model for complex radiation emission of hollow ions in fusion and laser produced plasmas", Europhysics Letters 55, 472 (2001).
F.B. Rosmej, D. H. H. Hoffmann, M. Geißel, M. Roth, P. Pirzadeh, A. Ya. Faenov, T. A. Pikuz, I. Yu. Skobelev, A. I. Magunov: "Space resolved observation of Si Li-like high energy Rydberg-transitions from autoionizing levels in dense laser produced plasmas", Phys. Rev. A 63, 063409 (2001).
F.B. Rosmej: "The He-emission in dense non-Maxwellian plasmas", J. Phys. B Lett.: At. Mol. Opt. Phys. 33, L1 (2000).
F.B. Rosmej, V.S. Lisitsa, D. Reiter, M. Bitter, O. Herzog, G. Bertschinger, H.-J. Kunze: "Influence of charge exchange processes on X-ray spectra in tokamak plasmas: experimental and theoretical investigation", Plasma Physics and Controlled Fusion 41, 191 (1999).
F.B. Rosmej, A.Ya. Faenov, T.A. Pikuz, A.I. Magunov, I.Yu. Skobelev, T. Auguste, P.D'Oliveira, S. Hulin, P. Monot, N.E. Andreev, M.V. Chegotov, M.E. Veisman: "Charge exchange induced formation of hollow atoms in high intensity laser produced plasmas", J. Phys. B. Lett. : At. Mol. Opt. Phys. 32, L107 (1999).
F.B. Rosmej, A.Ya. Faenov, T.A. Pikuz, F. Flora, P. Di Lazzaro, S. Bollanti, N. Lizi, T. Letardi, A. Reale, L. Palladino, O. Batani, S. Bossi, A. Bornardinello, A. Scafati, L. Reale: "Line Formation of High Intensity He-Rydberg Dielectronic Satellites 1s3lnl' in Laser Produced Plasmas", J. Phys. B Lett.: At. Mol. Opt. Phys. 31, L921 (1998).
F.B. Rosmej, V.S. Lisitsa: "A self-consistent method for the determination of neutral density from X-ray impurity spectra", Phys. Lett. A 244, 401 (1998).
F.B. Rosmej, J. Abdallah Jr: "Blue satellite structure near He and He and redistribution of level populations", Phys. Lett. A 245, 548 (1998).
S.H. Glenzer, F.B. Rosmej, R.W. Lee, C.A. Back, K.G. Estabrook, B.J. MacCowan, T.D. Shepard, R.E. Turner: "Measurements of suprathermal electrons in hohlraum plasmas with X-ray spectroscopy", Phys. Rev. Lett. 81, 365 (1998).
F.B. Rosmej: "Hot Electron X-ray Diagnostics", J. Phys. B. Lett.: At. Mol. Opt. Phys. 30, L819 (1997).
Y. Koseki, V. Ryzhii, T. Otsuji, V. V. Popov, and A. Satou "Giant plasmon instability in a dual-grating-gate graphene field-effect transistor" Phys. Rev. B 93, 245408 (2016).
A. Dubinov, V. Aleshkin, V. Mitin, T. Otsuji and V. Ryzhii "Terahertz surface plasmons in optically pumped graphene structures" Journal of Physics: Condensed Matter 23, (2011).

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