slide1
Download
Skip this Video
Download Presentation
MSTU MIREA - Radboud University Nijmegen : 18 years of successful collaboration

Loading in 2 Seconds...

play fullscreen
1 / 19

MSTU MIREA - Radboud University Nijmegen : 18 years of successful collaboration - PowerPoint PPT Presentation


  • 190 Views
  • Uploaded on

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. science education

loader
I am the owner, or an agent authorized to act on behalf of the owner, of the copyrighted work described.
capcha
Download Presentation

PowerPoint Slideshow about ' MSTU MIREA - Radboud University Nijmegen : 18 years of successful collaboration' - shiro


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.While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server.


- - - - - - - - - - - - - - - - - - - - - - - - - - E N D - - - - - - - - - - - - - - - - - - - - - - - - - -
Presentation Transcript
slide1

MSTU MIREA - Radboud University Nijmegen:

18 years of successful collaboration

SigovAlexandr S., rector

Mishina Elena D. , the head of the laboratory

Moscow State Technical University of Radioengineering,

Electronics and Automation

MSTUMIREA

  • science
  • education
  • personal training
  • for high-tech industry
slide2

1. Moscow State Technical University of Radioengineering,

Electronics and Automation

MSTU MIREA

ИРЭА

slide3

MSTU MIREA: Departments

Date of Foundation: June 1947

10,000 students 1,500 teachers

slide4

MSTU MIREA : Education Scheme

Engineer

program

(5 years

study)

Engineer

diploma

Bachelor

program

(4 years

study)

Master

program

(2 years study)

Post

graduate

education

Ph.D.

degree

Bachelor

degree

Master

degree

Foreign master program

(1or2 years study)

EC-Lille, Minho Univers.etc.

slide6

MSTU MIREA : Education Scheme

More than 50 Basic Departments in the Institutes of Russian Academy of Science, high-tech and defense industry

slide7

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

slide8

2. Russian-Dutch cooperation

Starting point: 1995

Level of cooperation: Research laboratories

Laboratory – the centre of high-tech education and training

MSTU MIREA

RUN

Laboratory

“Femtosecond optics for nanotechnology”

FEMTON

Spectroscopy of Solids and Interfaces

Institute for Molecules and Materials

Prof. E.Mishina

Prof. Th. Rasing

slide9

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 time-scales (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 second-harmonic 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.

slide10

Laboratory “Femtosecond optics for nanotechnology”

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 :
  • semiconductor
  • functional
    • ferroelectric,
    • ferromagnetic,
    • multiferroic)
  • bio-organic

Techniques:

Femtosecond laser based

http://www.nano.fel.mirea.ru

slide11

Directions of collaboration

  • 1. Research: joint goals, complementary methods
  • 2. Education
    • Students for diploma work (including joint supervising)
    • PhD students (including jointsupervising)
    • Laboratory workshop in Moscow
  • 3. Professor and Researchers’
  • training
  • 4. Conferences, seminars

SNOM&Confocal microscopy

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).

Prof. Rasing

Keynote speaker

KEYNOTE

speaker

slide12

Funding Scheme

  • Joint projects
    • INTAS
    • RFBR-NWO
    • Ministry of Education and Sciences of RF (Program “Cadres”)
  • NWO (personal)
  • FP7 via RUN
  • Ministry of Education and Sciences of RF and RFBR
    • Part of the work is carried out in RUN
slide15

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 7.37Citations 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 3.84Citations 24

DC-electric-field-induced second-harmonic generation in Si(111)-SiO2-Cr 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 3.69Citations 41

slide16

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 “Engineer” : 6 R

Students in joint publications: 8R+3NL

slide17

Graduates carriers (15)

Time in the Laboratory:

graduates 3-4 years

PhD students – 6-7 years

MSTU MIREA: permanent, PhD – 3

PhD students - 4

RUN, Netherlands (PhD student) – 1

Aveiro University, Portugal (postdoc) – 1

Philips (Moscow) – 1

Gazprom -1

Hamamatsu (Moscow)- 1

Eurotek (Moscow) - 1

slide18

Suggestions

  • Short - period travel grants for master students and PhD students (less than 6 months per year)
  • (similar to Marie Curie Actions – IRSES)
  • RFBR-NWO joint Project on Continues basis
  • (as Russian-German)
slide19

Acknowledgements:

University Nijmegen

Prof. Rasing

Thank you for your attention!

ad