Light Vector Mesons in the Nuclear Medium

M. H. Wood,R. Nasseripour,D. P. Weygand,Chaden Djalali,C. Tur,Ulrich Mosel,P. Muehlich,G. S. Adams,M. J. Amaryan,P. Ambrozewicz,M. Anghinolfi,G. Asryan,H. Avakian,H. Bagdasaryan,N. Baillie,J. Ball,N. A. Baltzell,S. Barrow,M. Battaglieri,I. Bedlinskiy,M. Bektasoglu,M. Bellis,N. Benmouna,B. L. Berman,A. S. Biselli,L. Blaszczyk,S. Bouchigny,S. Boiarinov,R. Bradford,D. Branford,W. J. Briscoe,W. K. Brooks,Volker Burkert,C. Butuceanu,J. R. Calarco,S. L. Careccia,D. S. Carman,B. Carnahan,L. Casey,Shifeng Chen,L. Cheng,Philip L. Cole,P. Collins,P. Coltharp,D. Crabb,Hall Crannell,Volker Crede,J.P. Cummings,N. Dashyan,R. De Vita,E. De Sanctis,P. V. Degtyarenko,H. Denizli,L.C. Dennis,Alexandre Deur,K. V. Dharmawardane,R. Dickson,G. E. Dodge,D. Doughty,Michael Dugger,S. A. Dytman,O. P. Dzyubak,H. Egiyan,K. S. Egiyan,L. El Fassi,L. Elouadrhiri,Paul Eugenio,G. Fedotov,Gerald Feldman,R. J. Feuerbach,A. Fradi,H. Funsten,M. Garçon,G. Gavalian,G. P. Gilfoyle,K. L. Giovanetti,F.X. Girod,J. T. Goetz,Cio Gordon,R. W. Gothe,K. A. Griffioen,M. Guidal,N. Guler,Lei Guo,V. Gyurjyan,Cynthia Marie Hadjidakis,K. Hafidi,H. Hakobyan,R. S. Hakobyan,C. Hanretty,J. Hardie,N. Hassall,F. W. Hersman,K. Hicks,I. Hleiqawi,M. Holtrop,C. E. Hyde-Wright,Y. Ilieva,D. G. Ireland,B. S. Ishkhanov,E. L. Isupov,M. M. Ito,D. Jenkins,H. S. Jo,J. R. Johnstone,K. Joo,H. G. Juengst,N. Kalantarians,J.D. Kellie,M. Khandaker,P. Khetarpal,W. Kim,Avraham Klein,F. J. Klein,Alexei V. Klimenko,M. Kossov,Z. Krahn,L. H. Kramer,V. Kubarovsky,J. Kuhn,S. E. Kuhn,S.V. Kuleshov,J. Lachniet,J. M. Laget,J. Langheinrich,D. Lawrence,Ji Li,K. Livingston,H. Y. Lu,M. MacCormick,N. Markov,P. Mattione,S. McAleer,B. McKinnon,J. W. C. McNabb,B. A. Mecking,S. Mehrabyan,J. J. Melone,M. D. Mestayer,C. A. Meyer,T. Mibe,K. Mikhailov,R.C. Minehart,M. Mirazita,R. Miskimen,V. I. Mokeev,K. Moriya,S.A. Morrow,Maryam Moteabbed,James Mueller,E. Munevar,G. S. Mutchler,P. Nadel-Turonski,S. Niccolai,G. Niculescu,I. Niculescu,B. B. Niczyporuk,M. R. Niroula,R. A. Niyazov,M. Nozar,M. Osipenko,A. I. Ostrovidov,Kunsoo Park,E. Pasyuk,C. Paterson,S. Anefalos Pereira,J. Pierce,N. Pivnyuk,D. Pocanic,O. Pogorelko,S. Pozdniakov,B. M. Preedom,J. W. Price,Y. Prok,D. Protopopescu,B. A. Raue,G. Riccardi,G. Ricco,M. Ripani,Barry Ritchie,Federico Ronchetti,G. Rosner,P. Rossi,F. Sabatié,J. Salamanca,C. Salgado,J. P. Santoro,V. Sapunenko,R. A. Schumacher,V. S. Serov,Y. G. Sharabian,D. Sharov,N. V. Shvedunov,Elton Smith,L. C. Smith,D. I. Sober,D. Sokhan,A. Stavinsky,Stepan Stepanyan,S. S. Stepanyan,B. E. Stokes,P. Stoler,I. I. Strakovsky,Steffen Strauch,M. Taiuti,D. J. Tedeschi,A. Tkabladze,S. Tkachenko,L. Todor,M. Ungaro,M. F. Vineyard,A. V. Vlassov,Daniel Watts,Larry Weinstein,Michael L. Williams,E. Wolin,A. Yegneswaran,L. Zana,Bin Zhang,J. Zhang,B. Zhao,Z. W. Zhao

Light Vector Mesons in the Nuclear Medium

2008

The light vector mesons ($\rho$, $\omega$, and $\phi$) were produced in deuterium, carbon, titanium, and iron targets in a search for possible in-medium modifications to the properties of the $\rho$ meson at normal nuclear densities and zero temperature. The vector mesons were detected with the CEBAF Large Acceptance Spectrometer (CLAS) via their decays to $e^{+}e^{-}$. The rare leptonic decay was chosen to reduce final-state interactions. A combinatorial background was subtracted from the invariant mass spectra using a well-established event-mixing technique. The $\rho$ meson mass spectrum was extracted after the $\omega$ and $\phi$ signals were removed in a nearly model-independent way. Comparisons were made between the $\rho$ mass spectra from the heavy targets ($A > 2$) with the mass spectrum extracted from the deuterium target. With respect to the $\rho$-meson mass, we obtain a small shift compatible with zero. Also, we measure widths consistent with standard nuclear many-body effects such as collisional broadening and Fermi motion.

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