Study of primary cosmic ray composition from gamma ray families in air shower cores

被引:0
|
作者
Honda, K
Kawasumi, N
Tsushima, I
Hashimoto, K
Nishida, T
Matano, T
Inoue, N
Ohsawa, A
Tamada, M
Ohmori, N
Martinic, N
Ticona, R
Gironda, N
Osco, F
Aguirre, C
机构
[1] FUKUI UNIV TECHNOL,DEPT APPL PHYS & CHEM,FUKUI 910,JAPAN
[2] SAITAMA UNIV,FAC SCI,URAWA,SAITAMA 388,JAPAN
[3] UNIV TOKYO,INST COSM RAY RES,TANASHI,TOKYO 188,JAPAN
[4] KINKI UNIV,FAC SCI & TECHNOL,HIGASHIOSAKA,OSAKA 577,JAPAN
[5] KOCHI UNIV,FAC SCI,KOCHI 780,JAPAN
[6] UNIV MAYOR SAN ANDRES,INST INVEST FIS,LA PAZ,BOLIVIA
来源
NUCLEAR PHYSICS B | 1997年
关键词
D O I
暂无
中图分类号
O412 [相对论、场论]; O572.2 [粒子物理学];
学科分类号
摘要
We have observed high energy gamma families and associated air showers simultaneously at Mt. Chacaltaya. Monte Carlo simulations were calculated for the present experimental setup. From comparisons with both results, mechanism of gamma family production, change of interaction model, study of the chemical composition are discussed.
引用
收藏
页码:191 / 193
页数:3
相关论文
共 50 条
  • [1] Measurement of air shower cores to study the cosmic ray composition in the knee energy region
    Amenomori, M
    Ayabe, S
    Caidong
    Danzengluobu
    Ding, LK
    Feng, ZY
    Fu, Y
    Guo, HW
    He, M
    Hibino, K
    Hotta, N
    Huang, Q
    Huo, AX
    Izu, K
    Jia, HY
    Kajino, F
    Kasahara, K
    Katayose, Y
    Labaciren
    Li, JY
    Lu, H
    Lu, SL
    Luo, GX
    Meng, XR
    Mizutani, K
    Mu, J
    Nanjo, H
    Nishizawa, M
    Ohnishi, M
    Ohta, I
    Ouchi, T
    Peng, ZR
    Ren, JR
    Saito, T
    Sakata, M
    Sasaki, T
    Shi, ZZ
    Shibata, M
    Shiomi, A
    Shirai, T
    Sugimoto, H
    Taira, K
    Tan, YH
    Tateyama, N
    Torii, S
    Utsugi, T
    Wang, CR
    Wang, H
    Xu, XW
    Yamamoto, Y
    PHYSICAL REVIEW D, 2000, 62 (07): : 1 - 12
  • [2] A COSMIC-RAY AIR SHOWER ARRAY FOR THE STUDY OF GAMMA-RAY TRANSIENTS
    PLUNKETT, S
    MCBREEN, B
    OSULLIVAN, CT
    NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT, 1991, 300 (01): : 197 - 201
  • [3] Measurements of the cosmic ray composition with air shower experiments
    Kampert, Karl-Heinz
    Unger, Michael
    ASTROPARTICLE PHYSICS, 2012, 35 (10) : 660 - 678
  • [4] GAMMA-RAY BUNDLES AT THE CORES OF EXTENSIVE AIR SHOWERS AND PRIMARY COSMIC-RAY IDENTIFICATION
    AUGUSTO, CRA
    NAVIA, CE
    PINTO, FA
    BARROSO, SLC
    SHIBUYA, EH
    LUKSYS, M
    OHSAWA, A
    PHYSICAL REVIEW D, 1995, 52 (09): : 4976 - 4984
  • [5] Monte Carlo simulation of air shower development for the study of cosmic ray composition
    Shirasaki, Y
    Kakimoto, F
    ASTROPARTICLE PHYSICS, 2001, 15 (03) : 241 - 257
  • [6] Air shower development simulation program for the cosmic ray study
    Sanjeewa, Hakmana
    He, Xiaochun
    Cleven, Christopher
    NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION B-BEAM INTERACTIONS WITH MATERIALS AND ATOMS, 2007, 261 (1-2): : 918 - 921
  • [7] Study of the primary cosmic ray mass composition using gamma rays
    Kopenkin, V.
    Fujimoto, Y.
    ASTRONOMY & ASTROPHYSICS, 2007, 466 (03) : 1211 - 1217
  • [8] Cosmic ray air shower detection with LOPES
    Haungs, A.
    Apel, W. D.
    Arteaga, J. C.
    Asch, T.
    Badea, A. F.
    Baehren, L.
    Bekk, K.
    Bertaina, M.
    Biermann, P. L.
    Bluemer, J.
    Bozdog, H.
    Brancus, I. M.
    Brueggemann, M.
    Buchholz, P.
    Buitink, S.
    Butcher, H.
    Chiavassa, A.
    Cossavella, F.
    Daumiller, K.
    Di Pierro, F.
    Doll, P.
    Engel, R.
    Falcke, H.
    Gemmeke, H.
    Ghia, P. L.
    Glasstetter, R.
    Grupen, C.
    Hakenjos, A.
    Heck, D.
    Hoerandel, J. R.
    Horneffer, A.
    Huege, T.
    Isar, P. G.
    Kampert, K. -H.
    Kolotaev, Y.
    Kroemer, O.
    Kuijpers, J.
    Lafebre, S.
    Luczak, P.
    Mathes, H. J.
    Mayer, H. J.
    Meurer, C.
    Milke, J.
    Mitrica, B.
    Morello, C.
    Navarra, G.
    Nehls, S.
    Nigl, A.
    Oehlschlaeger, J.
    Ostapehenko, S.
    NUCLEAR PHYSICS B-PROCEEDINGS SUPPLEMENTS, 2008, 175 : 227 - 232
  • [9] Future Extensive Air Shower arrays: From Gamma-Ray Astronomy to Cosmic Rays
    Di Sciascio, Giuseppe
    ROMA INTERNATIONAL CONFERENCE ON ASTROPARTICLE PHYSICS 2014 (RICAP-14), 2016, 121
  • [10] On the efficiency of the evaluation of the primary cosmic ray composition using lateral distributions of air shower electromagnetic component
    Raikin, Roman
    Serebryakova, Tatyana
    Volkov, Nikolay
    Lagutin, Anatoly
    26TH EXTENDED EUROPEAN COSMIC RAY SYMPOSIUM, 2019, 1181
12345