6533b856fe1ef96bd12b2864

RESEARCH PRODUCT

Measurement of the AtmosphericνeSpectrum with IceCube

Jenni AdamsThorsten GlusenkampW. HuelsnitzJ. PützJ. LeunerK. HelbingChristian SpieringR. G. StokstadSander VanheuleJustin VandenbrouckeM. RichmanL. ClassenD. Z. BessonK. ClarkM. StamatikosM. LeuermannK. SchattoG. KohnenM. W. E. SmithJavier GonzalezJ. L. LanfranchiP. BerghausDariusz GoraSofia VallecorsaJ. KläsA. StasikJ. FeintzeigGerald PrzybylskiM. SchimpL. BrayeurGiorgio MaggiC. De ClercqJ. KunnenGeorge JaparidzeK. RawlinsR. HellauerE. A. StrahlerS. BöserA. HomeierM. RongenM. DayM. S. SutherlandI. TaboadaJ. FeldeM. QuinnanDamian PielothAli KheirandishM. DunkmanJoakim SandroosAzadeh KeivaniH. G. SanderJ. BlumenthalDavid A. WilliamsK. MeagherY. SestayoOlga BotnerV. BaumChristopher WiebuschJames MadsenJoshua PepperNathan WhitehornHermann KolanoskiA. M. BrownA. GoldschmidtSally RobertsonS. RichterMarkus AckermannS. W. BarwickJ. P. YanezE. MiddellElisa BernardiniG. TešićJ. DaughheteeSeongjin InCarsten RottB. HansmannC. WalckT. FuchsElisa ResconiM. BissokAnatoli FedynitchJ. L. KelleyMarkus AhlersM. KrollG. W. SullivanJames E. BraunM. N. TobinO. SchulzR. MaunuH. S. MatisJ. C. GrohS. FlisM. JurkovicL. KöpkeJ. Becker TjusXianwu XuD. AltmannDennis SoldinC. KopperT. KuwabaraMontaruli26 TeresaK. D. De VriesM. KauerM. KauerFrancis HalzenSamvel Ter-antonyanH. TaavolaM. ZollSegev BenzviN. BuzinskyS. WesterhoffKendall MahnP. ZarzhitskyM. WallraffM. VogeG. GolupL. SchulteJ. A. GoodmanR. MorseSpencer KleinSpencer KleinO. FadiranT. MenneA. TerliukL. SabbatiniB. KaminskyJ. C. GallagherD. HellwigTim RuheC. Pérez De Los HerosH. DembinskiM. StahlbergA. Haj IsmailN. L. StrotjohannP. GretskovG. MerinoN. WandkowskyA. OmairatD. J. KoskinenKara HoffmanF. BosD. GierM. BörnerKlas HultqvistJ. KirylukAllan HallgrenD. BoseA. H. Cruz SilvaE. BlaufussD. J. BoersmaJ. C. DavisR. NahnhauerR. StrömSurujhdeo SeunarineJ. MillerJ. P. DummJ. J. BeattyKarim GhorbaniSandro KopperT. PalczewskiE. JacobiC. WicharyDarren GrantD. HebeckerA. OlivasJuanan AguilarS. TilavH.-p. BretzJ. CaseyX. BaiL. WilleB. EberhardtWolfgang RhodeT. KargCh. WeaverA. MeliJ. PosseltR. GaiorM. SchmitzK. JeroN. KurahashiB. J. WhelanS. SchönebergF. HuangCarlos ArguellesTodor StanevSarah NowickiMatthias WolfMatthias VraegheHans NiederhausenA. ChristovA. BernhardJulian KempP. O. HulthThomas EhrhardtB. RuzybayevB. ChristyL. RädelK. WiebeThomas MeuresA. IshiharaN. A. StanishaJ. Van SantenA. StößlBjörn EichmannT. AndersonM. VehringD. F. CowenK.-h. BeckerYiqian XuT. Fischer-waselsC. WendtC. HaC. HaReina H. MaruyamaAlexander SandrockJ. P. A. M. De AndréP. B. PriceM. Lesiak-bzdakP. RedlH. WissingGary BinderGary BinderAxel GroßK. MaseK. HoshinaA. SchukraftC. FinleyT. O. B. SchmidtT. C. ArlenT. StezelbergerS. M. SabaGlenn SpiczakDaniel BindigE. CheungE. PinatM. UsnerT. R. WoodDirk RyckboschC. HaackKurt WoschnaggM. CasierU. NaumannM. RelichE. UngerChristian BohmDonglian XuPaul EvensonKirill FilimonovG. De WasseigeR. ReimannR. HoffmannDmitry ChirkinAongus O'murchadhaJ. LünemannL. MohrmannAlexander KappesSubir SarkarSubir SarkarR. C. BayB. RiedelD. BerleyG. C. HillRezo ShanidzeJuan Carlos Diaz-velezM. ArchingerL. GladstoneD. SeckelS. FaheyS. MiareckiS. MiareckiD. R. NygrenMarek KowalskiA. R. FazelyTyce DeyoungP. A. ToaleJ. AuffenbergA. ObertackeR. EaganM. TselengidouThomas K. GaisserG. B. YodhFrank McnallyR. KonietzK. KringsJoshua HignightS. De RidderM. LabareMaryon AhrensM. RameezM. MediciS. CoendersLarissa PaulF. ScheriauA. KoobAlbrecht KarleM. E. HuberL. GerhardtL. GerhardtA. SchönwaldS. HickfordM. J. LarsonS. SchoenenD. HeeremanDelia TosiM. G. AartsenS. EulerC. PfendnerKael HansonPaolo DesiatiS. YoshidaN. Van EijndhovenE. BeiserE. MiddlemasG. KrollM. Glagla

subject

AMANDANuclear and High Energy PhysicsParticle physicsAstrophysics::High Energy Astrophysical PhenomenaHadronCASCADES01 natural sciences7. Clean energyPower lawIceCubeNuclear physicsFlux (metallurgy)DESIGNLikelihood analysisDIGITIZATION0103 physical sciencesNEUTRINO FLUX010306 general physicsDETECTORPhysics010308 nuclear & particles physicsICEHigh Energy Physics::PhenomenologySpectrum (functional analysis)DetectorPERFORMANCEENERGY-SPECTRUMEvent selectionPhysics and AstronomyHigh Energy Physics::ExperimentNeutrinoAstrophysics - High Energy Astrophysical PhenomenaphysicsSYSTEM

description

We present a measurement of the atmospheric $\nu_e$ spectrum at energies between 0.1 TeV and 100 TeV using data from the first year of the complete IceCube detector. Atmospheric $\nu_e$ originate mainly from the decays of kaons produced in cosmic-ray air showers. This analysis selects 1078 fully contained events in 332 days of livetime, then identifies those consistent with particle showers. A likelihood analysis with improved event selection extends our previous measurement of the conventional $\nu_e$ fluxes to higher energies. The data constrain the conventional $\nu_e$ flux to be $1.3^{+0.4}_{-0.3}$ times a baseline prediction from a Honda's calculation, including the knee of the cosmic-ray spectrum. A fit to the kaon contribution ($\xi$) to the neutrino flux finds a kaon component that is $\xi =1.3^{+0.5}_{-0.4}$ times the baseline value. The fitted/measured prompt neutrino flux from charmed hadron decays strongly depends on the assumed astrophysical flux and shape. If the astrophysical component follows a power law, the result for the prompt flux is $0.0^{+3.0}_{-0.0}$ times a calculated flux based on the work by Enberg, Reno and Sarcevic.

yearjournalcountryeditionlanguage
2015-06-29Physical Review D
https://doi.org/10.1103/physrevd.91.122004