1 / 10

Inter-institutional cooperation as a key to successful development

Research and education center for physics of solid state nanostructures (REC-001) University of Nizhniy Novgorod. Inter-institutional cooperation as a key to successful development. M.V. Dorokhin, Researcher. Pan-REC, Voronezh 2010. University of Nizhniy Novgorod

don
Download Presentation

Inter-institutional cooperation as a key to successful development

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Research and education center for physics of solid state nanostructures (REC-001) University of Nizhniy Novgorod Inter-institutional cooperation as a key to successful development M.V. Dorokhin, Researcher Pan-REC, Voronezh 2010

  2. University of Nizhniy Novgorod Nanotechnology and nanomaterials research and education Department of Physics, UNN My career at the university: 1999-2004 Student of department of Physics 2004-2007 PhD Student 2007 Start of educational work as a lecturer 2007 PhD Degree on Physics of Semiconductors Physico-Technical Research Institute, UNN Research and Education Center for Physics of Solid State Nanostructures Research and Education Center for Nanotechnology Currently: - Researcher of Physical-Technical Research Institute and REC PSSN - Senior lecturer of the Department of Physics 2

  3. My research field – spintronics Spacer Transfer, storage and processing information by means of electron spin Spin valve Spin light-emitting diode • Additional channel for transferring information. • Increase of electronic devices performance. • Increase of recording density of storage devices. Magnetic field controlled parameters of current or/and luminescence

  4. Spintronic materials In co-authorship with B.N. Zvonkov, A.V. Kudrin, et.al. Fabrication of ferromagnetic semiconductor materials for spintronic devices. GaMnAs InMnAs δ<Mn> MnP MnAs MnSb etc. Prospective: Integration of spintronic devices with currently existing semiconductor devices of micro- and optoelectronics. Main achievements: • Room temperature ferromagnetism of InMnAs ferromagnetic semiconductor. • Light-emitting diodes with magnetic field controlled parameters of electroluminescence. Yu A Danilov, A V Kudrin, et.al. / “Ferromagnetic semiconductor InMnAs layers grown by pulsed laser deposition on GaAs” // J. Phys. D: Appl. Phys. - 2009. - V.42. - P.035006. M.V. Dorokhin, B.N. Zvonkov, Yu.A. Danilov, et.al. / “Formation of magnetic GaAs:Mn layers for InGaAs/GaAs light emitting quantum-size structures” // Int. J. Nanoscience. - 2007. - V. 6, n. 3. - P. 221-224.

  5. 2) Spin-light-emitting diode P+ P- Circular polarized electroluminescence M.V. Dorokhin, Yu.A. Danilov, P.B. Demina, et.al. / “Emission properties of InGaAs/GaAs heterostructures with delta<Mn>-doped barrier” // J. Phys. D: Appl. Phys. - 2008. - V.41. - P.245110.

  6. BRHE REC PSSN assistance • Financial support or researchers (grant #BP4-M01, etc.) • Shared access to modern technological and analytical equipment 3) Purchase of new up to date equipment (new set of optical equipment has been purchased in 2009). 4) English training (BRHE summer English camps (2005)). 5) Possibility for grant applications (Travel grant # BG 9201 for participation at the international conference on Spintronics (Cracow-July 2009))

  7. NNSU Institute for physics of microstructures RAS Anomalous Hall effect measurements at T = 10-300 K. MOCVD epitaxy & laser sputtering Diffraction analysis Institute for Radio Electronics, Fryazino branch Institute for Solid State Physics RAS (Chernogolovka) Magneto-optics Low temperature measurements in liquid He SQUID measurements Magnetic force microscopy 6) Travel opportunities for experimental work and training in various institutes

  8. + International cooperation CRDF and NSF (US) assisted discussion on mutual education and research programs between PSSN Center of Nizhniy Novgorod State University and Center for Nanotechnology Education and Utilization of Pennsylvania State University, State College PA • Center for Nanotechnology Education and Utilization: • One of US national centers for nanotechnology; • Concentrates nanotechnology educational resources of Pennsylvania; • Search for international cooperation.

  9. Visits of REC PSSN employees to CNEU on May 2009. • Visit of CNEU administration executives to REC PSSN • Discussion of possible mutual education programs. • Scientific discussion of close areas of research. • Access to educational resources of CNEU provided to REC PSSN • Discussions of RECs administration with Representatives of Russian Ministry of Education and Rosnano on creation of joint research and education center for training and re-training of specialists in the area of nanotechnology. • CNEU offer concerning educational program development and distance training.

  10. Resume Inter-institutional cooperation in education and research areas is an important condition for successful development BRHE assistance in NNSU Research and education • Within 1999-2009 results of research performed in REC-001 has been published in 105 international and 289 Russian journals and reported at 256 international and 517 Russian conferences. • 54 PhD students were receiving REC financial support. • 30 of them has completed and defended their PhD Degree dissertations. • 15 of these PhDs has won post-doc Grants within the frameworks of BRHE program.

More Related