Primary proton spectrum between 200 TeV and 1000 TeV observed with the Tibet burst detector and air shower array

M Amenomori,Danzengluobu Danzengluobu,M Shibata,A F Yuan,T Ouchi,Y Fu,T Yuda,S Ayabe,M Sakata,K Taira,J Mu,K Mizutani,X Y Zhang,Y Katayose,H Sugimoto,A Shiomi,S L Lu,K Hibino,I Ohta,K Izu,H Y Jia,Zhaxiciren Zhaxiciren,N Tateyama,F Kajino,N Hotta,K Kasahara,M Ohnishi,Zhaxisangzhu Zhaxisangzhu,A X Huo,Labaciren Labaciren,H Nanjo,Y H Tan,Caidong Caidong,L K Ding,T Shirai,M He,Z Z Shi,Xianbo Xu ,Z R Peng,H M Zhang,H W Guo,Shoji Torii ,Gan Luo ,H Lü ,T Saito,C R Wang,Y Yamamoto,Takashi Sasaki ,Z Feng ,H Wang,J Y Li,Q Huang,J R Ren,C S Zhang,Toshihiro Utsugi ,J L Zhang,N J Zhang,X R Meng,G C Yu,Masaki Nakamura

doi:10.1103/physrevd.62.112002

M Amenomori, Danzengluobu Danzengluobu + Show 58 more

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https://doi.org/10.1103/physrevd.62.112002

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Since 1996, a hybrid experiment consisting of the emulsion chamber and burst detector array and the Tibet-II air-shower array has been operated at Yangbajing (4300 m above sea level, 606 $\mathrm{g}/{\mathrm{cm}}^{2})$ in Tibet. This experiment can detect air-shower cores, called burst events, accompanied by air showers in excess of about 100 TeV. We observed about 4300 burst events accompanied by air showers during 690 days of operation and selected 820 proton-induced events with its primary energy above 200 TeV using a neural network method. Using this data set, we obtained the energy spectrum of primary protons in the energy range from 200 to 1000 TeV. The differential energy spectrum obtained in this energy region can be fitted by a power law with the index of $\ensuremath{-}2.97\ifmmode\pm\else\textpm\fi{}0.06,$ which is steeper than that obtained by direct measurements at lower energies. We also obtained the energy spectrum of helium nuclei at particle energies around 1000 TeV.

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