Мақаланы E-mail арқылы жіберу Studying the nature of the long-flying component of cosmic rays using X-ray emulsion chambers exposed in the Pamirs and Tien Shan
- Авторлар: Borisov A.S.1, Chubenko A.P.1, Denisova V.G.1, Galkin V.I.2, Guseva Z.M.1, Kanevskaya E.A.1, Kogan M.G.1, Koulikov V.N.3, Morozov A.E.1, Mukhamedshin R.A.4, Nazarov S.N.2, Puchkov V.S.1, Pyatovsky S.E.1, Shoziyoev G.P.1, Smirnova M.D.1, Vargasov A.V.1
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Мекемелер:
- Lebedev Physical Institute
- Skobel’tsyn Institute of Nuclear Physics
- Central Research Institute of Machine Building (TsNIIMash)
- Institute for Nuclear Research
- Шығарылым: Том 80, № 5 (2016)
- Беттер: 551-558
- Бөлім: Proceedings of the XXII All-Russian Conference “Electromagnetic Fields and Materials” (Fundamental Physical Research)
- URL: https://journals.rcsi.science/1062-8738/article/view/184389
- DOI: https://doi.org/10.3103/S1062873816050038
- ID: 184389
Дәйексөз келтіру
Ашық рұқсат
Рұқсат берілді
Тек жазылушылар үшін
Аннотация
The origin of an excess of hadrons observed in deep homogeneous lead X-ray emulsion chambers (XRECs) at depths of more than 70 radiation length units is analyzed. Preliminary experimental data on the absorption of cosmic-ray hadrons in a two-storied XREC with a large air gap, exposed in the Tien Shan mountains, are presented. The chamber was designed to test the hypothesis that the main source of the excess of dark spots detected on X-ray films deep inside the XREC was substantial growth of the charmed-particle production cross section at energy Elab ∼ 75 TeV. The experimental data obtained using a two-storied REC and in experiments with deep homogeneous XRECs are compared to the results from calculations using the FANSY 1.0 model. The comparison shows qualitative agreement between the experimental and the model data, assuming high values of the charmed-particle production cross section when Elab ∼ 75 TeV in the forward kinematic region with xF ≥ 0.1.
Авторлар туралы
A. Borisov
Lebedev Physical Institute
Хат алмасуға жауапты Автор.
Email: borisov@sci.lebedev.ru
Ресей, Moscow, 119991
A. Chubenko
Lebedev Physical Institute
Email: borisov@sci.lebedev.ru
Ресей, Moscow, 119991
V. Denisova
Lebedev Physical Institute
Email: borisov@sci.lebedev.ru
Ресей, Moscow, 119991
V. Galkin
Skobel’tsyn Institute of Nuclear Physics
Email: borisov@sci.lebedev.ru
Ресей, Moscow, 119991
Z. Guseva
Lebedev Physical Institute
Email: borisov@sci.lebedev.ru
Ресей, Moscow, 119991
E. Kanevskaya
Lebedev Physical Institute
Email: borisov@sci.lebedev.ru
Ресей, Moscow, 119991
M. Kogan
Lebedev Physical Institute
Email: borisov@sci.lebedev.ru
Ресей, Moscow, 119991
V. Koulikov
Central Research Institute of Machine Building (TsNIIMash)
Email: borisov@sci.lebedev.ru
Ресей, Korolev, Moscow oblast, 141070
A. Morozov
Lebedev Physical Institute
Email: borisov@sci.lebedev.ru
Ресей, Moscow, 119991
R. Mukhamedshin
Institute for Nuclear Research
Email: borisov@sci.lebedev.ru
Ресей, Moscow, 117312
S. Nazarov
Skobel’tsyn Institute of Nuclear Physics
Email: borisov@sci.lebedev.ru
Ресей, Moscow, 119991
V. Puchkov
Lebedev Physical Institute
Email: borisov@sci.lebedev.ru
Ресей, Moscow, 119991
S. Pyatovsky
Lebedev Physical Institute
Email: borisov@sci.lebedev.ru
Ресей, Moscow, 119991
G. Shoziyoev
Lebedev Physical Institute
Email: borisov@sci.lebedev.ru
Ресей, Moscow, 119991
M. Smirnova
Lebedev Physical Institute
Email: borisov@sci.lebedev.ru
Ресей, Moscow, 119991
A. Vargasov
Lebedev Physical Institute
Email: borisov@sci.lebedev.ru
Ресей, Moscow, 119991
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