MSTU MIREA - Radboud University Nijmegen: 18 years of successful collaboration Sigov Alexandr S., rector Mishina Elena D. , the head of the laboratory Moscow State Technical University of Radioengineering, Electronics and Automation MSTU MIREA вЂўscience вЂўeducation вЂўpersonal training for high-tech industry 1. Moscow State Technical University of Radioengineering, Electronics and Automation MSTU MIREA Р�Р РРђ MSTU MIREA: Departments Date of Foundation: June 1947 Electroni cs Economics and Manageme nt 10,000 students 1,500 teachers MSTU MIREA Information Technology Cybernet ics Radioengineeri ng MSTU MIREA : Education Scheme Engineer program (5 years study) Engineer diploma Bachelor program (4 years study) Master program (2 years study) Bachelor degree Master degree Post graduate education Foreign master program (1 or 2 years study) EC-Lille, Minho Univers.etc. Ph.D. degree MSTU MIREA: Educational Programmes Bachelor вЂў Optical Engineering вЂў Electronics and Nanoelectronics вЂў Robotics and Mechatronics вЂў Applied Mathematics вЂў Information Technology вЂў Radioengineering вЂў Economics вЂў Management вЂў Total 25 educational programmes Master вЂў Nanotechnology and Microsystem Technique вЂў Instrument Engineering вЂў Optical Engineering вЂў Applied Mathematics and Informatics вЂў Electronics and Nanoelectronics вЂў Robotics and Mechatronics вЂў Total 16 educational programmes Engineer вЂў Protected Telecommunication Systems вЂў Cyber Security вЂў Radio-Electronic Systems and Complexes Р�Р РРђ MSTU MIREA : Education Scheme More than 50 Basic Departments in the Institutes of Russian Academy of Science, high-tech and defense industry University Basic Department Industrial Priority directions of scientific research 1. Nanotechnology 2. Nanophotonics 3. Plasma physics 4. Solid-state physics 5. Micro- and nanoelectronics 6. Information telecommunication systems 7. Quantum electronics and electrodynamics 8. Intellectual control of complex dynamic objects 9. Information-logic basis of highly effective data processing 10. Development and research of high-effective methods for digital signals transmission 11. Fiber-optics systems for information collecting and transmission 2. Russian-Dutch cooperation Starting point: 1995 Level of cooperation: Research laboratories Laboratory вЂ“ the centre of high-tech education and training MSTU MIREA Laboratory вЂњFemtosecond optics for nanotechnologyвЂќ FEMTON Prof. E.Mishina RUN Spectroscopy of Solids and Interfaces Institute for Molecules and Materials Prof. Th. Rasing Group Spectroscopy of Solids and Interfaces (RUN) http://www.ru.nl/ssi/ Study the relation between structure and properties of nanoscopic and molecular materials, with an emphasis on phenomena that occur on extremely small spatial dimensions (nanophysics) and very short timescales (femtoseconds). A number of different methods are used, like linear and nonlinear optical techniques and scanning probe methods that yield the necessary atomic and interface sensitivities, whereas also completed new experimental tools, such as magnetization-induced secondharmonic generation, ultrasensitive polarimetry methods with femtosecond time resolution and atom lithography are being developed. In addition, novel methods of nanofabrication are being exploited in collaboration with supramolecular chemistry groups within the IMM. A new challenge is to combine the unique properties of optics (high frequency and time resolution) with the unsurpassed spatial resolution of scanning probe methods. Laboratory вЂњFemtosecond optics for nanotechnologyвЂќ FEMTON - MSTU MIREA Goals: Fabrication and characterization of new types of materials and nanostructures for micro-, opto- and nano-electronics with high temporal and spatial resolution. Materials : вЂў semiconductor вЂў functional ferroelectric, ferromagnetic, multiferroic) вЂў bio-organic Techniques: Femtosecond laser based http://www.nano.fel.mirea.ru Directions of collaboration 1. Research: joint goals, complementary methods 2. Education Students for diploma work (including joint supervising) PhD students (including joint supervising) Laboratory workshop in Moscow 3. Professor and ResearchersвЂ™ SNOM&Confocal microscopy training 4. Conferences, seminars Prof. Rasing KEYNOTE Keynote speaker speaker Methods of preparation and study of nanomaterials and nanostructures. Laboratory workshop on Nanotechnology: A Training Manual. Ed. A.S. Sigov. 2nd ed., rev. and add. M. BINOM. Knowledge Laboratory. - 2013. - 184 p. - (The textbook for high school) (in Russian). Funding Scheme 1. Joint projects вЂў вЂў вЂў INTAS RFBR-NWO Ministry of Education (Program вЂњCadresвЂќ) and Sciences of RF 2. NWO (personal) 3. FP7 via RUN 4. Ministry of Education and Sciences of RF and RFBR Part of the work is carried out in RUN Funding & Joint Projects Fund Years Title N part Budget INTAS-RFBR 1995-1997 Nonlinear optics of surface and interfaces 10 20 k$ NWO-RFBR 047.008.012 1999-2002 New nonlinear dielectric films for nanotechnology 10 16 k$ INTAS -2001-00075 2002-2005 Ferroelectrics templated in nanoporous membranes 10 25 kEuro NWO 2004-2005 Nonlinear optics for multiferroics 1 10 kEuro NWO 2006 Nonlinear optics for strongly correlated systems 1 10 kEuro FP7 IFOX (via RUN) 2011-2013 Interfacing oxides 5 4 kEuro Ministry of Education and Science of RF and RFBR 2008-2013 Different Projects 8 10 kEuro Ministry of Education and Science of RF 2012-2013 Ultrafast polarization dynamics (with Leading Scientist, Dr. Kimel, NL) 12 75 kEuro 145 kEuro Project Applications вЂњLeading Scientist MEGAGrantвЂќ Ministry of Education and Science of RF (A.V. Kimel, RUN) 2013-2014 Femtosecond control of magnetism and ferroelectricity for new generation of electronic devices 15 2 000 kEuro FP7-PEOPLE-2013IRSES (PI: RUN) 2013-2014 Two-dimensional Transition Metal Dichalcogenides for Ultrafast optoelectronic Materials 10 60 kEuro Results & Publications Joint publications - 33 Cumulative Impact Factor - 30,044 Cumulative citation - 270 Average citation per the paper - 11,25 Joint talks at the conferences - 38 Observation of a Near-Surface Structural Phase Transition in SrTiO3 by Optical Second Harmonic Generation. E.D. Mishina, T. V. Misuryaev, N. E. Sherstyuk, V. V. Lemanov, A. I. Morozov, A. S. Sigov, and Th. Rasing. Phys. Rev. Lett. v. 85, 3664-3667 (2000) IF 7.37 Citations 35 Nonlinear-optical probing of nanosecond ferroelectric switching E. D. Mishina, N. E. Sherstyuk, V.I. Stadnichuk, A.S. Sigov, V.M. Mukhorotov, Yu.I. Golovko, A. van Etteger, Th. Rasing, Appl. Phys. Lett. 83, 2402-2404 (2003). IF 3.84 Citations 24 DC-electric-field-induced second-harmonic generation in Si(111)-SiO2Cr MOS structures. O.A. Aktsipetrov, A.A. Fedyanin, E.D. Mishina, A.N. Rubtsov, C.W. van Hasselt, M.A.C. Devillers, and Th. Rasing. Phys. Rev. B 54, 1825, (1996). IF 3.69 Citations 41 People&quaification Total number of researchers 31 (21R+10NL) Visiting professors: 3R + 3 NL Students training in RUN: 11 R PhD Thesis : 4R Diploma of вЂњEngineerвЂќ : 6 R Students in joint publications: 8R+3NL Graduates carriers (15) Time in the Laboratory: graduates 3-4 years PhD students вЂ“ 6-7 years MSTU MIREA: permanent, PhD вЂ“ 3 PhD students - 4 RUN, Netherlands (PhD student) вЂ“ 1 Aveiro University, Portugal (postdoc) вЂ“ 1 Philips (Moscow) вЂ“ 1 Gazprom -1 Hamamatsu (Moscow)- 1 Eurotek (Moscow) - 1 Suggestions вЂўShort - period travel grants for master students and PhD students (less than 6 months per year) (similar to Marie Curie Actions вЂ“ IRSES) вЂўRFBR-NWO joint Project on Continues basis (as Russian-German) Acknowledgements: University Nijmegen Prof. Rasing Thank you for your attention!