IHEP 2010 - 14 (In Russian)
	G.D.Alekseev, A.S.Vodop'yanov, V.H.Dodohov, E.K.Koshurnikov, Yu.Yu.Lobanov, A.G.Ol'shevskiy (JINR, Dubna, Russia), S.L.Belostotskiy (PNPI, Gatchina, Russia), A.V.Buharov, A.A.Semenov (MPEI, Moscow, Russia), A.N.Vasil'ev, D.A.Morozov, V.V.Mochalov, A.V.Ryazantsev, P.A.Semenov (IHEP, Protvino, Russia), A.S.Gerasimov, P.V.Fedorets, V.D.Chernetskiy (ITEP, Moscow, Russia)
	Russian Institutes in PANDA
	Protvino, 2010. – p. 22, figs. 3, refs.: 35.

The PANDA experiment is one of the key experiments at the Facility for Antiproton and Ion Research (FAIR) which is under construction at GSI near Darmstadt in Germany. Physics program of the PANDA experiment aims at search for exotic particles and study of hadron properties including hadron spectroscopy, nucleon structure, nucleus medium effects, hypernuclei, and other interesting investigations. Of great interest are new extreme forms of matter, such as predicted by theory exotic hadrons: glueballs and hybrids. They have not been still observed up to now.
The PANDA setup will be mounted at the antiproton beam storage ring (HESR). The antiprotons will be stored in the ring with energies in the range from 1.5 to 15 GeV. Up to 2•10⁷ interactions per second on an internal hydrogen (cluster or pellet) target are anticipated in PANDA. In addition to high luminosity of the experiment (2•10³² cm^-2 sec^-1), the HESR beam will be highly monochromatic. Due to stochastic and electron cooling, fractional energy spread of the beam is expected to be on the level of 10^-4 – 10^-5 thus making it feasible a record mass measurement resolution of 100 keV. Russian institutes are involved in working out of eight detectors and installation units of PANDA. Russian contribution to the PANDA experiment is about one-third of the cost of the entire system.

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