30 MAY 2011
16:30-18:30
Room Bartók II
Nanoelectronics has vast potential in all segments of our life to lead to breakthroughs in information technologies for the benefit of society. This session deals with the understanding of findamental issues like nanoscale transport at the level of single molecules, quantum dots, nanotubes, nanowires and magnetic nanostructures.
Chair
HULICIUS, Eduard
Institute of Physics of the ASCR (CZ)
Keynote:
JUNGWIRTH, Tomas
FZU AVCR, Department of Spintronics and Nanoelectronics (CZ)
Physics and Applications of Spintronics – download
Speakers:
CHIKAN, Viktor
Kansas State University, chemistry (US)
Doping Semiconductor Quantum Dots
MORALES, Rafael
University of the Basque Country, Chemical-Physics Department (ES)
Magnetic Multi-Digit Units for Digital Devices
SZYSZKA, Bernd
Fraunhofer IST, Large Area Coatings (DE)
Oxide Electronics – the Enabling Technology for the Post Silicon Era
QUINN, Aidan
Tyndall National Institute (IE)
FUNMOL: Functional Nanocrystal-Molecule Assemblies for Nanoelectronics and Sensing
VARRÓ, Sándor
Research Indtitute for Solid States Physics and Optics, Hungarian Academy of Sciences
Needle Radiation, Wide-Angle Interference and ‘Quantum Nano-Optics.
The 100 Years Old experiment on Wide-Angle Interfererence by Pál Selényi;
a Hungarian Scholar at the Cradle of the Modern Concept of Photons – download
