Fyzikální ústav Akademie věd ČR

extreme light infrastructure New lasers for industry and research
Experimental Facilities in Physics and Material Science & Engineering Centre for innovation and technology transfer

Events

Seminar
Department of Thin Films and Nanostructures
Buckminsterfullerene: a probe to reveal hidden surface properties of metals
Silvia Karthäuser
06/06/2017 - 10:00
Seminar
Department of Optical Materials
Colloidal two-dimensional nanostructures
Benoît Mahler
06/06/2017 - 13:00
Seminar
Department of Optical Materials
Contactless thermometry with luminescent microprobes
Dr. Estelle Homeyer
06/06/2017 - 13:30
Seminar
Department of Thin Films and Nanostructures
Institute of Physics, The Czech Academy of Sciences; Institute of Inorganic Chemistry, The Czech Academy of Sciences; Faculty of Mathematics and Physics, Department of Condensed Matter Physics, Charles University; Faculty of Science, Department of Physical Chemistry, Charles University; Katchem Ltd.; Fulbright Foundation – Specialist Program
Cooperative Function in Atomically Precise Nanoscale Assemblies
Paul S. Weiss
07/06/2017 - 10:00
Seminar
Department of Thin Films and Nanostructures
STM investigation of laser driven processes at surfaces
Karina Morgenstern
13/06/2017 - 10:00
The Dvořák Lecture
Institute of Physics
Advanced scintillators for fast timing applications
Prof. Paul Lecoq
13/06/2017 - 15:00
Více ...

Welcome to our website

Fyzikální Ústav AV ČR, v. v. i. (FZU; in English: Institute of Physics of the Czech Academy of Sciences) is a public research institute, oriented on the fundamental and applied research in physics. The founder of the institute is The Czech Academy of Sciences.

The present research programme of the Institute comprises five branches of physics: particle physics, the physics of condensed matter, solid state physics, optics and plasma physics. It also corresponds to the way how the institute is divided into major research divisions.

More about the research activities ...

Prestigious high-impact journal publishes a fundamental Czech study on grain boundary chemistry and material embrittlement

Monday, 15.05.2017

Intergranular embrittlement is one of the most dangerous effects responsible for catastrophic failure of construction metallic materials. The reason is that it proceeds very quickly and its occurrence is hardly predictable. However, it is known that this problem is closely connected to chemical composition of intergranular regions – grain boundaries. Solutes and impurities tend to accumulate – segregate – at grain boundaries at enhanced temperatures in such an extent that they can occupy all available atomic positions there.

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Scanning microscopes can determine the electronegativity of atoms

Thursday, 04.05.2017

A new insight into the characterization of chemical properties of the elements has been contributed by a method of Czech and Japanese researchers, published in the prestigious journal Nature Communications. State-of-the-art scanning-probe microscopes already enable scientists to resolve individual atoms on surfaces, but thanks to the new method, they can also measure the ability of these atoms to attract electrons, i.e. their electronegativity.

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Livermore meets key milestone for delivery of world’s highest average power petawatt laser system

Wednesday, 08.02.2017

The High-Repetition-Rate Advanced Petawatt Laser System (HAPLS), being developed at Lawrence Livermore National Laboratory (LLNL), recently completed a significant milestone: demonstration of continuous operation of an all diode-pumped, high-energy femtosecond petawatt laser system.

With completion of this milestone, the system is ready for delivery and integration at the European Extreme Light Infrastructure Beamlines facility project (ELI Beamlines) in the Czech Republic.

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Focus on the lightest atoms in the smallest crystals

Thursday, 12.01.2017

Scientists from the Institute of Physics of the CAS lead an international team, which developed a new method to analyze the scattering of electrons in nanocrystals. The method is so accurate that it can be used to detect the positions of even the lightest of all atoms – the hydrogens. The accuracy and reliability of the method was demonstrated in a publication, where hydrogen positions were determined in two different materials. The work was published in the journal Science in its January 13th, 2017 issue.

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Advanced DPSSL laser, "DiPOLE 100", delivers 1kW performance

Tuesday, 27.12.2016

"DiPOLE 100" (alias "Bivoj"), a fully diode pumped solid state laser (DPSSL) designed and constructed at STFC's Central Laser Facility (CLF) at Rutherford Appleton Laboratory, was delivered under contract to the HiLASE Centre in the Czech Republic. In mid-December 2016, it achieved its full design performance, operating at an output energy of 100 J per pulse at 10 Hz (1 kW) for over 1 hour without operator intervention.

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