Exclusive photoproduction of the cascade ( ) hyperons

نویسندگان

  • J. W. Price
  • M. Anghinolfi
  • B. Asavapibhop
  • G. Audit
  • T. Auger
  • H. Avakian
  • H. Bagdasaryan
  • J. P. Ball
  • S. Barrow
  • M. Battaglieri
  • K. Beard
  • M. Bektasoglu
  • M. Bellis
  • N. Benmouna
  • B. L. Berman
  • N. Bianchi
  • A. S. Biselli
  • S. Boiarinov
  • S. Bouchigny
  • R. Bradford
  • D. Branford
  • W. J. Briscoe
  • W. K. Brooks
  • V. D. Burkert
  • C. Butuceanu
  • J. R. Calarco
  • D. S. Carman
چکیده

J. W. Price,1,∗ B. M. K. Nefkens,1 J. L. Ducote,1 J. T. Goetz,1 G. Adams,31 P. Ambrozewicz,10 E. Anciant,3 M. Anghinolfi,17 B. Asavapibhop,23 G. Audit,3 T. Auger,3 H. Avakian,35 H. Bagdasaryan,27 J. P. Ball,2 S. Barrow,11 M. Battaglieri,17 K. Beard,20 M. Bektasoglu,26,27,† M. Bellis,31,4 N. Benmouna,13 B. L. Berman,13 N. Bianchi,16 A. S. Biselli,4 S. Boiarinov,19 S. Bouchigny,18 R. Bradford,4 D. Branford,9 W. J. Briscoe,13 W. K. Brooks,35 V. D. Burkert,35 C. Butuceanu,39 J. R. Calarco,24 D. S. Carman,26 B. Carnahan,5 C. Cetina,13 S. Chen,11 P. L. Cole,15 A. Coleman,39 J. Connelly,13 D. Cords,35,‡ P. Corvisiero,17 D. Crabb,38 H. Crannell,5 J. P. Cummings,31 E. De Sanctis,16 R. DeVita,17 P. V. Degtyarenko,35 H. Denizli,29 L. Dennis,11 K. V. Dharmawardane,27 C. Djalali,34 G. E. Dodge,27 D. Doughty,6 P. Dragovitsch,11 M. Dugger,2 S. Dytman,29 O. P. Dzyubak,34 M. Eckhause,39 H. Egiyan,35 K. S. Egiyan,40 L. Elouadrhiri,6 A. Empl,31 P. Eugenio,11 L. Farhi,3 R. Fatemi,38 R. J. Feuerbach,35 T. A. Forest,27 V. Frolov,31 H. Funsten,39 S. J. Gaff,8 G. Gavalian,27 G. P. Gilfoyle,33 K. L. Giovanetti,20 C. I. O. Gordon,14 R. Gothe,34 K. Griffioen,39 M. Guidal,18 M. Guillo,34 N. Guler,27 L. Guo,35 V. Gyurjyan,35 C. Hadjidakis,18 R. S. Hakobyan,5 D. Hancock,39 J. Hardie,6 D. Heddle,6 F. W. Hersman,24 K. Hicks,26 I. Hleiqawi,26 M. Holtrop,24 J. Hu,31 C. E. Hyde-Wright,27 Y. Ilieva,13 D. Ireland,14 M. M. Ito,35 D. Jenkins,37 K. Joo,7 H. G. Juengst,13 J. H. Kelley,8 J. Kellie,14 M. Khandaker,25 K. Y. Kim,29 K. Kim,21 W. Kim,21 A. Klein,27 F. J. Klein,35 A. V. Klimenko,27 M. Klusman,31 M. Kossov,19 L. H. Kramer,10 Y. Kuang,39 V. Kubarovsky,31 S. E. Kuhn,27 J. Kuhn,4 J. Lachniet,4 J. M. Laget,3 J. Langheinrich,34 D. Lawrence,23 Ji Li,31 K. Livingston,14 K. Lukashin,5,35 W. Major,33 J. J. Manak,35 C. Marchand,3 S. McAleer,11 J. W. C. McNabb,28 B. A. Mecking,35 J. J. Melone,14 M. D. Mestayer,35 C. A. Meyer,4 K. Mikhailov,19 M. Mirazita,16 R. Miskimen,23 L. Morand,3 S. A. Morrow,3 V. Muccifora,16 J. Mueller,29 G. S. Mutchler,32 J. Napolitano,31 R. Nasseripour,10 S. O. Nelson,8 S. Niccolai,18 G. Niculescu,20 I. Niculescu,20 B. B. Niczyporuk,35 R. A. Niyazov,35 M. Nozar,35 J. T. O’Brien,5 G. V. O’Rielly,13 M. Osipenko,17 A. Ostrovidov,11 K. Park,21 E. Pasyuk,2 G. Peterson,23 S. A. Philips,13 N. Pivnyuk,19 D. Pocanic,38 O. Pogorelko,19 E. Polli,16 S. Pozdniakov,19 B. M. Preedom,34 Y. Prok,38 D. Protopopescu,14 L. M. Qin,27 B. A. Raue,10 G. Riccardi,11 G. Ricco,17 M. Ripani,17 B. G. Ritchie,2 F. Ronchetti,16 G. Rosner,14 P. Rossi,16 D. Rowntree,22 P. D. Rubin,33 F. Sabatié,3 K. Sabourov,8 C. Salgado,25 J. P. Santoro,37 M. Sanzone-Arenhovel,17 V. Sapunenko,17 R. A. Schumacher,4 V. S. Serov,19 A. Shafi,13 Y. G. Sharabian,40 J. Shaw,23 S. Simionatto,13 A. V. Skabelin,22 E. S. Smith,35 T. Smith,24 L. C. Smith,38 D. I. Sober,5 M. Spraker,8 A. Stavinsky,19 S. Stepanyan,35 B. Stokes,11 P. Stoler,31 I. I. Strakovsky,13 S. Strauch,13 M. Taiuti,17 S. Taylor,32 D. J. Tedeschi,34 U. Thoma,12 R. Thompson,29 A. Tkabladze,26 L. Todor,33 C. Tur,34 M. Ungaro,31 M. F. Vineyard,36 A. V. Vlassov,19 K. Wang,38 L. B. Weinstein,27 H. Weller,8 D. P. Weygand,35 M. Williams,4 M. Witkowski,31 E. Wolin,35 M. H. Wood,34 A. Yegneswaran,35 and J. Yun27 (CLAS Collaboration) 1University of California at Los Angeles, Los Angeles, California 90095-1547 2Arizona State University, Tempe, Arizona 85287-1504 3CEA-Saclay, Service de Physique Nucleaire, DAPNIA-SPhN, Cedex, France 4Carnegie Mellon University, Pittsburgh, Pennslyvania 15213 5Catholic University of America, Washington, D.C. 20064 6Christopher Newport University, Newport News, Virginia 23606 7University of Connecticut, Storrs, Connecticut 06269 8Duke University, Durham, North Carolina 27708-0305 9Edinburgh University, Edinburgh EH9 3JZ, United Kingdom 10Florida International University, Miami, Florida 33199 11Florida State University, Tallahassee, Florida 32306 12Physikalisches Institut der Universität Giessen, D-35392 Giessen, Germany 13The George Washington University, Washington, DC 20052 14University of Glasgow, Glasgow G12 8QQ, United Kingdom 15Idaho State University, Pocatello, Idaho 83209 16INFN, Laboratori Nazionali di Frascati, Frascati, Italy 17INFN, Sezione di Genova, I-16146 Genova, Italy 18Institut de Physique Nucleaire ORSAY, Orsay, France 19Institute of Theoretical and Experimental Physics, Moscow RU-117259, Russia 20James Madison University, Harrisonburg, Virginia 22807 21Kyungpook National University, Daegu 702-701, South Korea 22Massachusetts Institute of Technology, Cambridge, Massachusetts 02139-4307 23University of Massachusetts, Amherst, Massachusetts 01003 24University of New Hampshire, Durham, New Hampshire 03824-3568

برای دانلود رایگان متن کامل این مقاله و بیش از 32 میلیون مقاله دیگر ابتدا ثبت نام کنید

ثبت نام

اگر عضو سایت هستید لطفا وارد حساب کاربری خود شوید

منابع مشابه

Polarization of hyperons in exclusive photoproduction and instantons

It is shown that instantons can provide the explanation of strong polarization transfer observed in exclusive photoproduction of hyperons at JLab. [email protected] Recently, about 100% transfer of the polarization from photon to hyperons has been observed by CLAS collaboration in the reactions γ + p → K +Λ and γ + p → K +Σ at Jeferson Lab [1]. Only some qualitative explanation based on ad...

متن کامل

Physics Today Photoproduction of mesons and hyperons

متن کامل

- ex / 0 40 20 06 v 1 5 F eb 2 00 4 1 Photoproduction of the doubly - strange Ξ Hyperons

متن کامل

Polarization of Hyperons in Elementary Photoproduction

Recent measurements using the CLAS detector at Jefferson Lab of the reactions γ+p → K+Λ and γ+p → K +Σ have been used to extract the spin transfer coefficients Cx and Cz for the first time. These observables quantify the degree of the photon circular polarization that is transferred to the recoiling hyperons in the scattering plane. The unexpected result is that Λ hyperons are produced “100% po...

متن کامل

Baryon resonances and polarization transfer in hyperon photoproduction

The new CLAS data on hyperon photoproduction [1] show a remarkably large spin transfer probability. In the reactions γp → ΛK and γp → ΣK using a circularly polarized photon beam, the polarizations of the Λ and Σ hyperons were monitored by measurements of their decay angular distributions. For photons with helicity hγ = 1, the magnitude of the Λ polarization vector, |PΛ|, was found to be close t...

متن کامل

Instanton-Induced Polarization in Exclusive Hyperon Photoproduction

It is shown that instantons can provide an explanation of the strong polarization transfer observed in exclusive hyperon photoproduction at JLab. Pacs: 13.60.-r, 13.60.Rj, 13.88.+e, 12.38.-t,

متن کامل

ذخیره در منابع من

ذخیره در منابع من قبلا به منابع من ذحیره شده

{@ msg_add @}


  با ذخیره ی این منبع در منابع من، دسترسی به آن را برای استفاده های بعدی آسان تر کنید

عنوان ژورنال:

دوره   شماره 

صفحات  -

تاریخ انتشار 2005