000007273 001__ 7273
000007273 005__ 20140130003844.0
000007273 041__ $$arus
000007273 088__ $$aJINRP12004190
000007273 088__ $$aP12004190
000007273 100__ $$aAvdeichikov, V V
000007273 245__ $$aMultiparticle Production Process in $pp$ Interaction with High Multiplicity at E_p=70 GeV. Proposal "Termalization"
000007273 260__ $$c2004
000007273 269__ $$aDubna$$bJoint Inst. Nucl. Res.$$c7 Dec 2004
000007273 300__ $$a45 p
000007273 520__ $$aThe goal of the proposed experiment is the investigation of the collective behaviour of particles in the process of multiple hadron production in the $pp$ interaction $pp\to n_\pi\pi+2N$ at the beam energy $E_{\rm lab}=70$ GeV. The domain of high multiplicity $n_\pi=20{}35$ or $z=n/\bar n=3{}5$ will be studied. Near the threshold of the reaction $n_\pi\to 69$, all particles get a small relative momentum. As a consequence of the multiboson interference a number of collective effects may occur. In particular, drastic increase of the partial cross section $\sigma(n)$ of the $n$ identical particles production, as compared with commonly accepted extrapolation, and increase of the rate of direct photons are expected. The experiment is carried out on the modernized installation SVD, a spectrometer with a vertex detector which is supplied with a trigger system for registration of rare events with high multiplicity, on extracted proton beam of the IHEP (Protvino) 70 GeV accelerator. Required beam intensity is $\sim 10^7$ s$^{1}$. Assuming the partial cross section $\sigma (n_\pi=30)=0.2$ $\mu$b, we expect a counting rate of $10^2$ events per hour. The multiboson BEC enhancement may drastically increase the counting rate.
000007273 65017 $$2SzGeCERN$$aParticle Physics  Experiment
000007273 690C_ $$aPREPRINT
000007273 690C_ $$aPREPRINT
000007273 695__ $$9JINR$$aHigh energy experimental physics
000007273 700__ $$aAleev, A I
000007273 700__ $$aBalandin, V P
000007273 700__ $$aVasendina, V A
000007273 700__ $$aZhidkov, N K
000007273 700__ $$aZolin, L S
000007273 700__ $$aZulkarneev, R Ya
000007273 700__ $$aKireev, V I
000007273 700__ $$aKosarev, I G
000007273 700__ $$aKuzmin, N A
000007273 700__ $$aKuraev, E A
000007273 700__ $$aMandjavidze, I D
000007273 700__ $$aNikitin, V A
000007273 700__ $$aPetukhov, Yu P
000007273 700__ $$aPeshekhonov, V D
000007273 700__ $$aRufanov, I A
000007273 700__ $$aSusakian, A N
000007273 700__ $$aYukaev, A I
000007273 700__ $$aBasiladze, Sergei G
000007273 700__ $$aVolkov, V Yu
000007273 700__ $$aErmolov, P F
000007273 700__ $$aKramarenko, V A
000007273 700__ $$aKubarovskii, A V
000007273 700__ $$aLeflat, A K
000007273 700__ $$aMerkin, M M
000007273 700__ $$aPopov, V V
000007273 700__ $$aTikhonova, L A
000007273 700__ $$aAnikeev, A N
000007273 700__ $$aVasilchenko, V G
000007273 700__ $$aVorobev, A P
000007273 700__ $$aLapshin, V G
000007273 700__ $$aMaiorov, S V
000007273 700__ $$aMelnik, Yu M
000007273 700__ $$aMeshchanin, A P
000007273 700__ $$aRyadovikov, V N
000007273 700__ $$aKholodenko, A G
000007273 700__ $$aTsyupa, Yu P
000007273 700__ $$aChikilev, O G
000007273 700__ $$aYakutin, A E
000007273 700__ $$aDremin, I M
000007273 700__ $$aKokoulina, E S
000007273 700__ $$aPankov, A A
000007273 700__ $$aKuvshinov, V I
000007273 8564_ $$uhttp://www.jinr.ru/publish/Preprints/2004/190(P12004190).pdf$$yFulltext from JINR Dubna
000007273 859__ $$fpublish@pds.jinr.ru
000007273 901__ $$uLaboratory of Particle Physics, Dubna
000007273 901__ $$uSkobeltsyn Reseach Institute of Nuclear Physics Lomonosov Moscow State University
000007273 901__ $$uState Research Centre of the Russian Federation Institute for High Energy Physics, Protvino, Russia
000007273 901__ $$uP.N.Lebedev Physical Institute RAS, Moscow
000007273 901__ $$uGomel State Technical University, Belarus
000007273 901__ $$uThe Academy Scientific and Engineering Complex "Sosny", Belarus
000007273 909CO $$ooai:jdsweb.jinr.ru:7273$$pglobal
000007273 916__ $$sn$$w200514
000007273 960__ $$a11
000007273 961__ $$c20100420$$h0903$$lCER01$$x20050407
000007273 963__ $$aPUBLIC
000007273 970__ $$a002518072CER
000007273 980__ $$aPREPRINT