Cosmic rays are atomic nuclei arriving from outer space that reach the highest energies observed in nature. Clues to their origin come from studying the distribution of their arrival directions. Using 3 × 10(4) cosmic rays with energies above 8 × 10(18) electron volts, recorded with the Pierre Auger Observatory from a total exposure of 76,800 km(2) sr year, we determined the existence of anisotropy in arrival directions. The anisotropy, detected at more than a 5.2σ level of significance, can be described by a dipole with an amplitude of [Formula: see text] percent toward right ascension αd = 100 ± 10 degrees and declination δd = [Formula: see text] degrees. That direction indicates an extragalactic origin for these ultrahigh-energy particles.
Observation of a large-scale anisotropy in the arrival directions of cosmic rays above 8 × 10(18) eV
BLEVE, Carla;COLUCCIA, MARIA RITA;D'AMICO, STEFANO;DE MITRI, Ivan;MARSELLA, GIOVANNI;MARTELLO, Daniele;PERRONE, Lorenzo;STRAFELLA, Francesco;
2017-01-01
Abstract
Cosmic rays are atomic nuclei arriving from outer space that reach the highest energies observed in nature. Clues to their origin come from studying the distribution of their arrival directions. Using 3 × 10(4) cosmic rays with energies above 8 × 10(18) electron volts, recorded with the Pierre Auger Observatory from a total exposure of 76,800 km(2) sr year, we determined the existence of anisotropy in arrival directions. The anisotropy, detected at more than a 5.2σ level of significance, can be described by a dipole with an amplitude of [Formula: see text] percent toward right ascension αd = 100 ± 10 degrees and declination δd = [Formula: see text] degrees. That direction indicates an extragalactic origin for these ultrahigh-energy particles.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.