6533b835fe1ef96bd129f47f

RESEARCH PRODUCT

Cosmic-Ray Anisotropies in Right Ascension Measured by the Pierre Auger Observatory

The Pierre Auger CollaborationA. AabP. AbreuM. AgliettaI. F. M. AlbuquerqueJ. M. AlburyI. AllekotteA. AlmelaJ. Alvarez CastilloJ. Alvarez-mu��izG. A. AnastasiL. AnchordoquiB. AndradaS. AndringaC. AramoP. R. Ara��jo FerreiraH. AsoreyP. AssisG. AvilaA. M. BadescuA. BakalovaA. BalaceanuF. BarbatoR. J. Barreira LuzK. H. BeckerJ. A. BellidoC. BeratM. E. BertainaX. BertouP. L. BiermannT. BisterJ. BiteauA. BlancoJ. BlazekC. BleveM. Boh����ov��D. BoncioliC. BonifaziL. Bonneau ArbeletcheN. BorodaiA. M. BottiJ. BrackT. BretzF. L. BriechleP. BuchholzA. BuenoS. BuitinkM. BuscemiK. S. Caballero-moraL. CaccianigaL. CalcagniA. CancioF. CanforaI. CaracasJ. M. CarcellerR. CarusoA. CastellinaF. CatalaniG. CataldiL. CazonM. CerdaJ. A. ChinellatoK. ChoiJ. ChudobaL. ChytkaR. W. ClayA. C. Cobos CeruttiR. ColalilloA. ColemanM. R. ColucciaR. Concei����oA. CondorelliG. ConsolatiF. ContrerasF. ConvengaC. E. CovaultS. DassoK. DaumillerB. R. DawsonJ. A. DayR. M. De AlmeidaJ. De Jes��sS. J. De JongG. De MauroJ. R. T. De Mello NetoI. De MitriJ. De OliveiraD. De Oliveira FrancoV. De SouzaJ. DebatinM. Del R��oO. DelignyN. DhitalA. Di MatteoM. L. D��az CastroC. DobrigkeitJ. C. D'olivoQ. DorostiR. C. Dos AnjosM. T. DovaJ. EbrR. EngelI. EpicocoM. ErdmannC. O. EscobarA. EtchegoyenH. FalckeJ. FarmerG. FarrarA. C. FauthN. FazziniF. FeldbuschF. FenuB. FickJ. M. FigueiraA. Filip��i��M. M. FreireT. FujiiA. FusterC. GaleaC. GalelliB. Garc��aA. L. Garcia VegasH. GemmekeF. GesualdiA. Gherghel-lascuP. L. GhiaU. GiaccariM. GiammarchiM. GillerJ. GlombitzaF. GobbiG. GolupM. G��mez BerissoP. F. G��mez VitaleJ. P. GongoraN. Gonz��lezI. GoosD. G��raA. GorgiM. GottowikT. D. GrubbF. GuarinoG. P. GuedesE. GuidoS. HahnR. HallidayM. R. HampelP. HansenD. HarariV. M. HarveyA. HaungsT. HebbekerD. HeckG. C. HillC. HojvatJ. R. H��randelP. HorvathM. Hrabovsk��T. HuegeJ. HulsmanA. InsoliaP. G. IsarJ. A. JohnsenJ. JurysekA. K����p��K. H. KampertB. KeilhauerJ. KempH. O. KlagesM. KleifgesJ. KleinfellerM. K��pkeG. Kukec MezekA. Kuotb AwadB. L. LagoD. LahurdR. G. LangM. A. Leigui De OliveiraV. LenokA. Letessier-selvonI. Lhenry-yvonD. Lo PrestiL. LopesR. L��pezA. L��pez CasadoR. LorekQ. LuceA. LuceroA. Machado PayerasM. MalacariG. MancarellaD. MandatB. C. ManningJ. ManshandenP. MantschA. G. MariazziI. C. Mari��G. MarsellaD. MartelloH. MartinezO. Mart��nez BravoM. MastrodicasaH. J. MathesJ. MatthewsG. MatthiaeE. MayotteP. O. MazurG. Medina-tancoD. MeloA. MenshikovK. -D. MerendaS. MichalM. I. MichelettiL. MiramontiD. MocklerS. MollerachF. MontanetC. MorelloG. MorlinoM. Mostaf��A. L. M��llerM. A. MullerS. M��llerR. MussaM. MuzioW. M. NamasakaL. NellenM. Niculescu-oglinzanuM. NiechciolD. NitzD. NosekV. NovotnyL. No��kaA NucitaL. A. N����ezM. PalatkaJ. PallottaM. P. PanettaP. PapenbreerG. ParenteA. ParraM. PechF. PedreiraJ. P��kalaR. PelayoJ. Pe��a-rodriguezL. A. S. PereiraJ. Perez ArmandM. PerlinL. PerroneC. PetersS. PetreraT. PierogM. PimentaV. PirronelloM. PlatinoB. PontM. PothastP. PriviteraM. ProuzaA. PuyleartS. QuerchfeldJ. RautenbergD. RavignaniM. ReininghausJ. RidkyF. RiehnM. RisseP. RistoriV. RiziW. Rodrigues De CarvalhoJ. Rodriguez RojoM. J. RoncoroniM. RothE. RouletA. C. RoveroP. RuehlS. J. SaffiA. SaftoiuF. SalamidaH. SalazarG. SalinaJ. D. Sanabria GomezF. S��nchezE. M. SantosE. SantosF. SarazinR. SarmentoC. Sarmiento-canoR. SatoP. SavinaC. Sch��ferV. ScheriniH. SchielerM. SchimassekM. SchimpF. Schl��terD. SchmidtO. ScholtenP. Schov��nekF. G. Schr��derS. Schr��derS. J. SciuttoM. ScornavaccheR. C. ShellardG. SiglG. SilliO. SimaR. ��M��daP. SommersJ. F. SorianoJ. SouchardR. SquartiniM. StadelmaierD. StancaS. Stani��J. StasielakP. StassiA. StreichM. Su��rez-dur��nT. SudholzT. Suomij��rviA. D. SupanitskyJ. ��Up��kZ. SzadkowskiA. TaboadaO. A. TabordaA. TapiaC. TimmermansP. TobiskaC. J. Todero PeixotoB. Tom��G. Torralba ElipeA. TravainiP. TravnicekC. TrimarelliM. TriniM. TuerosR. UlrichM. UngerM. UrbanL. VaclavekJ. F. Vald��s GaliciaI. Vali��oL. ValoreA. Van VlietE. VarelaB. Vargas C��rdenasA. V��squez-ram��rezD. Veberi��C. VenturaI. D. Vergara QuispeV. VerziJ. VichaL. Villase��orJ. VinkS. VorobiovH. WahlbergA. A. WatsonM. WeberA. WeindlL. WienckeH. Wilczy��skiT. WinchenM. WirtzD. WittkowskiB. WundheilerA. YushkovE. ZasD. ZavrtanikM. ZavrtanikL. ZehrerA. ZepedaM. ZiolkowskiF. Zuccarello

subject

010504 meteorology & atmospheric sciencesAstronomyAstrophysicsAstrophysicsanisotropy [cosmic radiation]Amplitude01 natural sciencessurface [detector]010303 astronomy & astrophysicsRight ascensionastro-ph.HEPhysicsHigh Energy Astrophysical Phenomena (astro-ph.HE)PhysicsOBSERVATÓRIOSGalactic CenterAstrophysics::Instrumentation and Methods for AstrophysicsCosmic RaysAugerobservatoryAmplitudePhysics::Space PhysicsAstrophysics - High Energy Astrophysical PhenomenaExtragalactic cosmic rayAstrophysics::High Energy Astrophysical PhenomenaFOS: Physical sciencesCosmic raycosmic radiation: anisotropyExtragalactic cosmic rayGalactic center0103 physical sciencesHigh Energy PhysicsPierre auger observatory0105 earth and related environmental sciencesPierre Auger Observatorydetector: surfaceFísicaAstronomy and AstrophysicsCosmic rayefficiency [trigger]GalaxyDipole* Automatic Keywords *Space and Planetary ScienceExperimental High Energy Physicstrigger: efficiencyddc:520galaxyDipoleObservatoryEnergy (signal processing)anisotropiesRight ascension[PHYS.ASTR]Physics [physics]/Astrophysics [astro-ph]Energy (signal processing)dipole

description

We present measurements of the large-scale cosmic-ray anisotropies in right ascension, using data collected by the surface detector array of the Pierre Auger Observatory over more than 14 years. We determine the equatorial dipole component, ~d⊥, through a Fourier analysis in right ascension that includes weights for each event so as to account for the main detector-induced systematic effects. For the energies at which the trigger efficiency of the array is small, the “East-West” method is employed. Besides using the data from the array with detectors separated by 1500 m, we also include data from the smaller but denser sub-array of detectors with 750 m separation, which allows us to extend the analysis down to ∼ 0.03 EeV. The most significant equatorial dipole amplitude obtained is that in the cumulative bin above 8 EeV, d⊥ = 6.0 +1.0 −0.9%, which is inconsistent with isotropy at the 6σ level. In the bins below 8 EeV, we obtain 99% CL upper-bounds on d⊥ at the level of 1 to 3 percent. At energies below 1 EeV, even though the amplitudes are not significant, the phases determined in most of the bins are not far from the right ascension of the Galactic center, at αGC = −94◦ , suggesting a predominantly Galactic origin for anisotropies at these energies. The reconstructed dipole phases in the energy bins above 4 EeV point instead to right ascensions that are almost opposite to the Galactic center one, indicative of an extragalactic cosmic ray origin.

yearjournalcountryeditionlanguage
2020-03-13The Astrophysical Journal
10.3847/1538-4357/ab7236https://hdl.handle.net/2066/221109