NOvA neutrino detector sees first particles
"The more we know about neutrinos, the more we know about the early universe and about how our world works at its most basic level,” said NOvA co-spokesperson Gary Feldman of Harvard University.
"The more we know about neutrinos, the more we know about the early universe and about how our world works at its most basic level,” said NOvA co-spokesperson Gary Feldman of Harvard University.
This image was first of the asteroid photographs made within the European project GLORIA, the global network of robotic telescopes. The image has thus achieved wide publicity, it was shown e.g. at the web pages of NASA or published in the newspaper Guardian.
The discovery, allowing to manipulate spins in a magnet by short laser pulses, was reported by scientists from the Joint Laboratory of Opto-Spintronics at the Faculty of Mathematics and Physics, Charles University and the Institute of Physics, Academy of Sciences.
The numerical simulations of correlated materials using the supercomputer is a young field of the 21st century. Interesting research brought two papers in Physical Review Letters.
The results of long term research of silicon thin films achieved in the Institute of Physics have been recognized by invitation of RNDr. Jan Kočka, DrSc., head of the Department of Thin Films and Nanostructures of the Institute of Physics, to deliver the plenary “Mott lecture” at the 24th International Conference on Amorphous and Nanocrystalline Semiconductors.
Academy Council took up proposals of Academy prizes and honorary medals on its 30th meeting on June 7, 2011. besides Czech representatives, the Council recommended awarding Professor Dieter Vollhardt from the University of Augsburg for his merits in physical sciences.
The discovery is a result of a longstanding fruitful collaboration of scientists from the Institute of Physics of the Academy of Sciences of the Czech Republic and laboratories in Cambridge and Nottingham in the UK.
The present work of the Czech and Spanish scientific team consisted in a detailed theoretical analysis of the mechanisms by which the images of carbon materials arise in the scanning tunnelling microscope (STM) and the atomic force microscope (AFM). The results were published in the prestigious journal Physical Review Letters.