Fyzikální ústav Akademie věd ČR

Institute and media

CERN Courier, 7.6.2010.

Jirí Niederle, CERN Council member for...

Physical Review Focus, 4/9/ 2009.

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CERN Courier, 15/7/2009.

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Research subjects at department 16

The apparatus measures the atmospheric showers produced by nuclear interactions of the primary cosmic particle with air nuclei. The active involvement at this international Observatory with 17 participating countries and more than 50 institutions from all over the world is the major scientific topic of the department. For the first time the observatory combines two measurement techniques – that of surface array covering 3000 km2 of Argentinian pampa and of fluorescence telescopes. Thus the precision of the shower reconstruction is much better than in previous experiments. In close cooperation with Joint Laboratory of Optics of Palacky University and Institute of Physics, the scientific personnel of our department is involved in the construction and the operation of the fluorescence telescopes, in the analysis of the measured showers and also in the atmospheric monitoring. The last activity is necessary for successful unbiased shower reconstruction. We operate robotic astronomical telescope FRAM that measures atmosphere transparency using immediate brightnesses of standard stars. Another traditional topic of the group is the study of nucleus-nucleus interactions in the shower development at energies far above of those available at current accelerators.

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The group is also involved in the international AIRFLY (AIR FLuorescence Yield) project. The goal of the AIRFLY experiment is to measure a crucial parameter for atmospheric shower (energy) reconstruction - a fluorescence yield in the air. The measurements are performed in Frascati (Italy), Argonne (USA) and at Fermilab (USA) in gas chambers with controlled thermodynamic conditions. The aim is to measure the yield as a function of atmospheric conditions (temperature, humidity and pressure) as well as to precisely determine the fluorescence spectrum.  The full text >>

The aim of the LSST (Large Synoptic Survey Telescope) project is to build the world largest wide-field survey telescope. The system with primary mirror of 8.4 m diameter, field of view of 10 deg squared and a 3.2 gigapixel CCD camera is expected to be finished in 2015. With these parameters the telescope will be able to map the whole visible sky in mere 3 nights. During 10 years it will be able to take at least 300 pictures of each position on the sky and thus to create a “movie of deep universe”.

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As it was shown only recently, electromagnetic waves are produced during the passage of cosmic ray shower in the atmosphere also at gigahertz frequencies, i.e. in the microwave range. The determination of the intensity of the emission is non trivial and dependent on the number of uncertainties, and thus it is still an open question, whether the effect can be used for the measurement of the longitudinal profiles of air showers, in the similar manner as the fluorescence light emission is already being used.

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