Contribution of Exclusive Diffractive Processes to the Measured Azimuthal Asymmetries in SIDIS

J. Agarwala,M. G. Alexeev,G. D. Alexeev,A. Amoroso,V. Andrieux,N. V. Anfimov,V. Anosov,A. Antoshkin,K. Augsten,W. Augustyniak,C. D. R. Azevedo,B. Badelek,F. Balestra,M. Ball,J. Barth,R. Beck,Y. Bedfer,J. Berenguer Antequera,J. Bernhard,M. Bodlak,P. Bordalo,F. Bradamante,A. Bressan,M. Buechele,V. E. Burtsev,W. -C. Chang,C. Chatterjee,M. Chiosso,A. G. Chumakov,S. -U. Chung,A. Cicuttin,P. M. M. Correia,M. L. Crespo,D. D'Ago,S. Dalla Torre,S. S. Dasgupta,S. Dasgupta,I. Denisenko,O. Yu. Denisov,L. Dhara,S. V. Donskov,N. Doshita,Ch. Dreisbach,W. Duennweber,R. R. Dusaev,A. Efremov,P. D. Eversheim,M. Faessler,A. Ferrero,M. Finger,H. Fischer,C. Franco,J. M. Friedrich,V. Frolov,F. Gautheron,O. P. Gavrichtchouk,S. Gerassimov,J. Giarra,I. Gnesi,M. Gorzellik,A. Grasso,A. Gridin,M. Grosse Perdekamp,B. Grube,A. Guskov,D. von Harrach,R. Heitz,F. Herrmann,N. Horikawa,N. d' Hose,C. -Y. Hsieh,S. Huber,S. Ishimoto,A. Ivanov,T. Iwata,M. Jandek,V. Jary,R. Joosten,P. Joerg,E. Kabuss,F. Kaspar,A. Kerbizi,B. Ketzer,G. V. Khaustov,Yu. A. Khokhlov,Yu. Kisselev,F. Klein,J. H. Koivuniemi,V. N. Kolosov,K. Kondo Horikawa,I. Konorov,V. F. Konstantinov,A. M. Kotzinian,O. M. Kouznetsov,A. Koval,Z. Kral,F. Krinner,Y. Kulinich,F. Kunne,K. Kurek,R. P. Kurjata,A. Kveton,K. Lavickova,S. Levorato,Y. -S. Lian,J. Lichtenstadt,P. -J. Lin,R. Longo,V. E. Lyubovitskij,A. Maggiora,A. Magnon,N. Makins,N. Makke,G. K. Mallot,A. Maltsev,S. A. Mamon,B. Marianski,A. Martin,J. Marzec,J. Matousek, T. Matsuda,G. Mattson,G. V. Meshcheryakov,M. Meyer,W. Meyer, Yu. V. Mikhailov,M. Mikhasenko,E. Mitrofanov,N. Mitrofanov,Y. Miyachi,A. Moretti,A. Nagaytsev,C. Naim,D. Neyret,J. Novy,W. -D. Nowak,G. Nukazuka,A. S. Nunes,A. G. Olshevsky,M. Ostrick, D. Panzieri,B. Parsamyan,S. Paul,H. Pekeler,J. -C. Peng,F. Pereira,M. Pesek,D. V. Peshekhonov,M. Peskova,N. Pierre,S. Platchkov,J. Pochodzalla,V. A. Polyakov,J. Pretz,M. Quaresma,C. Quintans,S. Ramos,G. Reicherz,C. Riedl,T. Rudnicki,D. I. Ryabchikov,A. Rybnikov,A. Rychter,V. D. Samoylenko,A. Sandacz,S. Sarkar,I. A. Savin,G. Sbrizzai,H. Schmieden,A. Selyunin,L. Sinha,M. Slunecka,J. Smolik,A. Srnka,D. Steffen,M. Stolarski,O. Subrt,M. Sulc,H. Suzuki,A. Szabelski,P. Sznajder,S. Tessaro,F. Tessarotto,A. Thiel,J. Tomsa,F. Tosello,A. Townsend,V. Tskhay,S. Uhl,B. I. Vasilishin,A. Vauth,B. M. Veit,J. Veloso,B. Ventura,A. Vidon,M. Virius,M. Wagner,S. Wallner,M. Wilfert,K. Zaremba,P. Zavada,M. Zavertyaev,M. Zemko,E. Zemlyanichkina,Y. Zhao,M. Ziembicki

Nuclear physics B(2020)

引用 4|浏览161
暂无评分
摘要
Hadron leptoproduction in Semi-Inclusive measurements of Deep-Inelastic Scattering (SIDIS) on unpolarised nucleons allows one to get information on the intrinsic transverse momentum of quarks in a nucleon and on the Boer-Mulders function through the measurement of azimuthal modulations in the cross section. These modulations were recently measured by the HERMES experiment at DESY on proton and deuteron targets, and by the COMPASS experiment using the CERN SPS muon beam and a 6LiD target. In both cases, the amplitudes of the cos⁡ϕh and cos⁡2ϕh modulations show strong kinematic dependences for both positive and negative hadrons. It has been known since some time that the measured final-state hadrons in those SIDIS experiments receive a contribution from exclusive diffractive production of vector mesons, particularly important at large values of z, the fraction of the virtual photon energy carried by the hadron. In previous measurements of azimuthal asymmetries this contribution was not taken into account, because it was not known that it could distort the azimuthal modulations. Presently, a method to evaluate the contribution of the exclusive reactions to the azimuthal asymmetries measured by COMPASS has been developed. The subtraction of this contribution results in a better understanding of the kinematic effects, and the remaining non-zero cos⁡2ϕh modulation gives indication for a non-zero Boer-Mulders effect.
更多
查看译文
AI 理解论文
溯源树
样例
生成溯源树,研究论文发展脉络
Chat Paper
正在生成论文摘要