Indications of proton-dominated cosmic-ray composition above 1.6 EeV.

Authors :: Abbasi RU
Abu-Zayyad T
Al-Seady M
Allen M
Amman JF
Anderson RJ
Archbold G
Belov K
Belz JW
Bergman DR
Blake SA
Brusova OA
Burt GW
Cannon C
Cao Z
Deng W
Fedorova Y
Finley CB
Gray RC
Hanlon WF
Hoffman CM
Holzscheiter MH
Ivanov D
Hughes G
Hüntemeyer P
Ivanov D
Jones BF
Jui CC
Kim K
Kirn MA
Loh EC
Liu J
Lundquist JP
Maestas MM
Manago N
Marek LJ
Martens K
Matthews JA
Matthews JN
Moore SA
O'Neill A
Painter CA
Perera L
Reil K
Riehle R
Roberts M
Rodriguez D
Sasaki N
Schnetzer SR
Scott LM
Sinnis G
Smith JD
Sokolsky P
Song C
Springer RW
Stokes BT
Stratton S
Thomas SB
Thomas JR
Thomson GB
Tupa D
Zech A
Zhang X
Source :: Physical review letters [Phys Rev Lett] 2010 Apr 23; Vol. 104 (16), pp. 161101. Date of Electronic Publication: 2010 Apr 20.
Publication Year :: 2010
Abstract: We report studies of ultrahigh-energy cosmic-ray composition via analysis of depth of air shower maximum (X(max)), for air shower events collected by the High-Resolution Fly's Eye (HiRes) observatory. The HiRes data are consistent with a constant elongation rate d<X(max)>/d[log(E)] of 47.9+/-6.0(stat)+/-3.2(syst) g/cm2/decade for energies between 1.6 and 63 EeV, and are consistent with a predominantly protonic composition of cosmic rays when interpreted via the QGSJET01 and QGSJET-II high-energy hadronic interaction models. These measurements constrain models in which the galactic-to-extragalactic transition is the cause of the energy spectrum ankle at 4x10(18) eV.