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Sergey Maksimenko

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To discuss new particular results and new trends in nanoscience ... EMRS 2004 Spring Meeting, Symp. I, Strasbourg, France (to be done). NANOELECTROMAGNETICS ... – PowerPoint PPT presentation

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Title: Sergey Maksimenko


1
NANOELECTROMAGNETICS
  • Sergey Maksimenko
  • maksim_at_bsu.by
  • Belarus State University

2
NANOELECTROMAGNETICS
  • What is the topic of the meeting?
  • To discuss new particular results and new trends
    in nanoscience and nanotechnology?
  • To present management structure of RD in
    nanoscience and nanotechnology?
  • To reveal national and international mechanisms
    to support RD in nanoscience and
    nano-technology?

3
NANOELECTROMAGNETICS
  • What is the elementary cell in the RD structure?
  • LABORATORY (research group)
  • How research group can survive in aggressive
    environment and show research progress?

4
NANOELECTROMAGNETICS
  • MONEY

5
NANOELECTROMAGNETICS
  • To choose attractive and fashionable RD topic
  • To be involved in national RD programs
  • To provide top-level publications, recognizable
    by the scientific society, and other forms of
    dissimilation of research results
  • To be incorporated in international
    collaborations

6
NANOELECTROMAGNETICS
  • AN EXAMPLE
  • Electromagnetics-of-nanostructures group exists
    at the Institute for Nuclear Problems, BSU, since
    1996.
  • Electromagnetic response properties and
    electronic transport as well as linear and
    nonlinear optical phenomena in nanostructures,
    such as carbon nanotubes and quantum dots are
    currently in the focus of the group activity.

7
NANOELECTROMAGNETICS
  • NANOSTRUCTURES
  • Quantum wires and quantum dots, fullerenes,
    nanotubes, sculptured thin films, atomic
    clusters, nanocrystallites, etc.
  • Spatial inhomogeneity
  • Quantization of the charge carrier motion

complex geometry complex electronics
8
NANOELECTROMAGNETICS
BASIC CONCEPT
Boundary-value problems for complex-shaped
regions Complex geometry, ordinary electronics
Quasi-particle concept Electrons, phonons,
magnons Complex electronics, ordinary geometry
Diffraction Theory
Solid State Physics
9
NANOELECTROMAGNETICS
Basic concept illustration
Classical grid screen
Graphene crystalline lattice
10
NANOELECTROMAGNETICS
  • KEY RESULTS
  • quantum-mechanical modeling of the NT
    conductivity
  • NT as nanowaveguide of surface waves
  • negative differential conductivity in NT
    (instability)
  • Third harmonics generation in NTs (theory and
    experiment)
  • Purcell effect in NTs
  • Excitonic composites
  • Polarization dependent splitting of the gain line
    in QDs (theory and experiment)
  • Local-field effects in QED of QDs
  • Field-matter strong coupling regime in NTs and
    QDs (Rabi oscillations)

11
NANOELECTROMAGNETICS
  • RECENT PUBLICATIONS invited talks
  • 8th Intern. Symposium Nano-structures physics
    and technology, St. Petersburg, 2000.
  • 8th International Conference on Electromagnetics
    of Complex Media, Bianisotropic2000, Lisbon,
    Portugal, 2000.
  • 203rd Meeting of the Electrochemical Society, R5
    Symp. "Nanotubes, Nanoscale Materials and
    Molecular Devices", Paris, France, 2003
  • Int. Conference Nanotubes and Nanowires, SPIE's
    48th Annual Meeting, 2003, San Diego, USA
  • EMRS 2004 Spring Meeting, Symp. I, Strasbourg,
    France (to be done).

12
NANOELECTROMAGNETICS
  • RECENT PUBLICATIONS books
  • S.A.Maksimenko and G.Ya.Slepyan, Electrodynamic
    properties of carbon nanotubes, in
    "Electromagnetic Fields in Unconventional
    Structures and Materials", John Wiley Sons, New
    York, 2000
  • S.A.Maksimenko and G.Ya.Slepyan, Electromagnetics
    of Carbon Nanotubes, in "Introduction to Complex
    Mediums for Optics and Electromagnetics", SPIE
    Press Vol. PM 123, 2003.
  • S.A. Maksimenko and G.Ya. Slepyan,
    Nanoelectromagnetics of low dimensional
    structures, in " Handbook of Nanotechnology
    Modeling and Simulation", SPIE Press, 2004, (to
    be published).
  • S.A. Maksimenko, G.Ya.Slepyan, A. Lakhtakia and
    A. Hoffmann, Nanoelectromagnetics An
    Introduction, Springer Verlag, 2005 (to be
    published)
  • S.A.Maksimenko and G.Ya.Slepyan, Quantum dot
    array Electromag-netic response of, In
    Encyclopedia of Nanoscience and Nanotech-nology,
    Marcel Dekker, Inc., USA (2004, in press).

13
NANOELECTROMAGNETICS
  • PUBLICATIONS selected papers

Phys. Rev. Lett. 79, 1102-1105 (1997).
Carbon 36, 1833-1839 (1998). Phys. Rev. B 57,
9485-9497 (1998). Phys. Rev. B 59, 1275-1278
(1999). Phys. Rev. A 61, R777-R780 (1999).
Phys. Rev. B 60, 17136-17149 (1999). Phys.
Rev. Lett. 84, 362-365 (2000). Phys. Rev. A
63, 053808 (2001). Phys. Rev. B 64, 125326
(2001). J. Commun. Techn. and Electronics 47,
235-252 (2002) (review). Phys. Rev. Lett.
89 (11), 115504 (2002). Appl. Phys. Lett.
81 (21), 4064-4066 (2002). Phys. Rev. A 66,
063804, 1-17 (2002). Phys. Rev. B 68,
073310 (2003).
14
NANOELECTROMAGNETICS
  • Collaboration in ED of nanostructures

Heat-and Mass Transfer Institute NAS Belarus
Usikov Institute For Radiophysics And
Electronics Ukraine, Kharkov
15
NANOELECTROMAGNETICS
  • THANKS

The research is partially supported through
INTAS projects 96-0467 and 97-2018 BMBF
(Germany) projects WEI-001-98 and
BEL-001-01 NATO Science for Peace Program
project SfP-972614 Belarus Foundation for
Fundamental Research State Programs of Oriented
Fundamental Research
16
NANOELECTROMAGNETICS
  • CALL FOR PAPERS

NanoModeling (AM221) www.spie.org SPIE's 49th
Annual Meeting, 2-6 August 2004 Denver,
USA Chairs Akhlesh Lakhtakia, The Pennsylvania
State Univ. Sergey A. Maksimenko, Belarus
State Univ. Invited speakers M. C. Demirel
(Biodetection and biomolecules), PennState J.
Kübler (Micromagnetism), TU Darmstadt T. G.
Mackay (Unusual metamaterials), Univ. of
Edinburgh T. S. Rahman (Atomistic modeling of
thin films), Kansas Univ. V. Shchukin
(Semiconductor diode lasers in photonic bandgap
crystals), Nanosemiconductor GmbH and Ioffe
Institute V. B. Shenoy (Nanomechanics), Indian
Institute of Science, Bangalore (India) Abstract
Due Date 5 January 2004
17
NANOELECTROMAGNETICS
  • I have presented a successful research group.
  • What for?
  • To stress the points where the international
    community can contribute

18
NANOELECTROMAGNETICS
  • Infrastructure of the RD in nanoscience and
    nanotechnology (equipment, links, etc.)
  • Expertise of national projects.
  • Selection and promotion of successful research
    group through conference visits support,
    development and dissemination of group passports,
    etc.
  • Financial support for conferences and meetings
    (like NATO does for Mediterranean countries).
  • Direct research grants Why not? First of all,
    for commercialization of the RD results.
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