Sergey Maksimenko Belarus State University 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 R&D in nanoscience and nanotechnology? To reveal national and international mechanisms to support R&D in nanoscience and nano- technology?
NANOELECTROMAGNETICS What is the elementary cell in the R&D structure? LABORATORY (research group) How research group can survive in aggressive environment and show research progress?
NANOELECTROMAGNETICS MONEY
NANOELECTROMAGNETICS To choose attractive and fashionable R&D topic To be involved in national R&D 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
NANOELECTROMAGNETICS AN EXAMPLE: Electromagnetics-of-nanostructures group exists at the Institute for Nuclear Problems, BSU, since 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.
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
NANOELECTROMAGNETICS Boundary-value problems for complex-shaped regions: Complex geometry, ordinary electronics Quasi-particle concept: Electrons, phonons, magnons… Complex electronics, ordinary geometry Diffraction TheorySolid State Physics ELECTRODYNAMICS OF NANOSTRUCTURES BASIC CONCEPT
NANOELECTROMAGNETICS Classical grid screen Graphene crystalline lattice Basic concept: illustration
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)
NANOELECTROMAGNETICS RECENT PUBLICATIONS: invited talks 8 th Intern. Symposium Nano-structures: physics and technology, St. Petersburg, th International Conference on Electromagnetics of Complex Media, Bianisotropic’2000, Lisbon, Portugal, rd Meeting of the Electrochemical Society, R5 Symp. "Nanotubes, Nanoscale Materials and Molecular Devices", Paris, France, 2003 Int. Conference Nanotubes and Nanowires, SPIE's 48 th Annual Meeting, 2003, San Diego, USA EMRS 2004 Spring Meeting, Symp. I, Strasbourg, France (to be done).
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, 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).
NANOELECTROMAGNETICS PUBLICATIONS: selected papers Phys. Rev. Lett. 79, (1997). Carbon 36, (1998). Phys. Rev. B 57, (1998). Phys. Rev. B 59, (1999). Phys. Rev. A 61, R777-R780 (1999). Phys. Rev. B 60, (1999). Phys. Rev. Lett. 84, (2000). Phys. Rev. A 63, # (2001). Phys. Rev. B 64, # (2001). J. Commun. Techn. and Electronics 47, (2002) (review). Phys. Rev. Lett. 89 (11), # (2002). Appl. Phys. Lett. 81 (21), (2002). Phys. Rev. A 66, , 1-17 (2002). Phys. Rev. B 68, (2003).
NANOELECTROMAGNETICS Collaboration in ED of nanostructures Usikov Institute For Radiophysics And Electronics Ukraine, Kharkov Heat-and Mass Transfer Institute NAS Belarus
NANOELECTROMAGNETICS THANKS The research is partially supported through INTAS projects and BMBF (Germany) projects WEI and BEL NATO Science for Peace Program project SfP Belarus Foundation for Fundamental Research State Programs of Oriented Fundamental Research
NANOELECTROMAGNETICS CALL FOR PAPERS NanoModeling (AM221) 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
NANOELECTROMAGNETICS I have presented a successful research group. What for? To stress the points where the international community can contribute
NANOELECTROMAGNETICS Infrastructure of the R&D 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 R&D results.