Formation of multinucleon systems and nuclei with mass numbers of 6 and 7 in 16Op interactions at a momentum of 3.25 GeV/c per nucleon
Khusniddin K. OlimovInstitute for Physics and Technology, Fizika-Solntse Research and Production Association, Uzbek Academy of Sciences, ul. G. Mavlyanova 2b, Tashkent, 700084, Republic of UzbekistanA. KurbanovS. L. LutpullaevInstitute for Physics and Technology, Fizika-Solntse Research and Production Association, Uzbek Academy of Sciences, ul. G. Mavlyanova 2b, Tashkent, 700084, Republic of UzbekistanV. I. PetrovInstitute for Physics and Technology, Fizika-Solntse Research and Production Association, Uzbek Academy of Sciences, ul. G. Mavlyanova 2b, Tashkent, 700084, Republic of UzbekistanA.A. YuldashevInstitute for Physics and Technology, Fizika-Solntse Research and Production Association, Uzbek Academy of Sciences, ul. G. Mavlyanova 2b, Tashkent, 700084, Republic of UzbekistanВ. В. ГлаголевJoint Institute for Nuclear Research, Dubna, Moscow oblast, 141980, RussiaU.D. SherkulovNavoi State Pedagogical Institute, ul. Ibn Sino 45, Navoi, 706800, Republic of Uzbekistan
ABI
Аннотация
The results of a comparative analysis of the multiplicities of singly and doubly charged accompanying particles in the channels involving the production of six- and seven-nucleon systems in 16Op collisions at a momentum of 3.25 GeV/c per nucleon are reported. Cross sections for the yield of multinucleon systems and mean multiplicities of accompanying particles are found. The experimental data are compared with the predictions of the cascade—fragmentation—evaporation model.
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Показатели — AkademScholar · Скоро