Yusuke Kimura scite author profile

We report on a measurement of the cosmic ray composition by the Telescope Array Low-Energy Extension (TALE) air fluorescence detector (FD). By making use of the Cherenkov light signal in addition to air fluorescence light from cosmic ray (CR) induced extensive air showers, the TALE FD can measure the properties of the cosmic rays with energies as low as ∼ 2 PeV and exceeding 1 EeV. In this paper, we present results on the measurement of X max distributions of showers observed over this energy range. Data collected over a period of ∼ 4 years was analyzed for this study. The resulting X max distributions are compared to the Monte Carlo (MC) simulated data distributions for primary cosmic rays with varying composition and a 4-component fit is performed. The comparison and fit are performed for energy bins, of width 0.1 or 0.2 in log 10 (E/eV), spanning the full range of the measured energies. We also examine the mean X max value as a function of energy for cosmic rays with energies greater than 10 15.8 eV. Below 10 17.3 eV, the slope of the mean X max as a function of energy (the elongation rate) for the data is significantly smaller than that of all elements in the models, indicating that the composition is becoming heavier with energy in this energy range. This is consistent with a rigidity-dependent cutoff of events from galactic sources. Finally, an increase in the X max elongation rate is observed at energies just above 10 17 eV indicating another change in the cosmic rays composition.

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Feature Extraction from GPR Data for Identification of Landmine-Like Objects Under Rough Ground Surface

Nishimoto¹,

Ueno²,

Kimura³

2006

Journal of Electromagnetic Waves and Applications

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The UHECR dipole and quadrupole in the latest data from the original Auger and TA surface detectors

Tinyakov¹,

Almeida²,

Abbasi³

et al. 2021

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The sources of ultra-high-energy cosmic rays are still unknown, but assuming standard physics, they are expected to lie within a few hundred megaparsecs from us. Indeed, over cosmological distances cosmic rays lose energy to interactions with background photons, at a rate depending on their mass number and energy and properties of photonuclear interactions and photon backgrounds. The universe is not homogeneous at such scales, hence the distribution of the arrival directions of cosmic rays is expected to reflect the inhomogeneities in the distribution of galaxies; the shorter the energy loss lengths, the stronger the expected anisotropies. Galactic and intergalactic magnetic fields can blur and distort the picture, but the magnitudes of the largest-scale anisotropies, namely the dipole and quadrupole moments, are the most robust to their effects. Measuring them with no bias regardless of any higher-order multipoles is not possible except with full-sky coverage. In this work, we achieve this in three energy ranges (approximately 8-16 EeV, 16-32 EeV, and 32-∞ EeV) by combining surface-detector data collected at the Pierre Auger Observatory until 2020 and at the Telescope Array (TA) until 2019, before the completion of the upgrades of the arrays with new scintillator detectors. We find that the full-sky coverage achieved by combining Auger and TA data reduces the uncertainties on the north-south components of the dipole and quadrupole in half compared to Auger-only results.

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Indications of a Cosmic Ray Source in the Perseus-Pisces Supercluster

Abbasi¹,

Abu‐Zayyad²,

Allen³

et al. 2021

Preprint

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Yusuke Kimura

Joint analysis of the energy spectrum of ultra-high-energy cosmic rays as measured at the Pierre Auger Observatory and the Telescope Array

The Cosmic-Ray Composition between 2 PeV and 2 EeV Observed with the TALE Detector in Monocular Mode

Feature Extraction from GPR Data for Identification of Landmine-Like Objects Under Rough Ground Surface

The UHECR dipole and quadrupole in the latest data from the original Auger and TA surface detectors

Indications of a Cosmic Ray Source in the Perseus-Pisces Supercluster

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