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Recent Results. Lutz Köpke University of Mainz, Germany July 31, 2003. http://amanda.uci.edu. Cosmic rays. Neutrinos. Upgrade and IceCube. Contributed papers to ICRC. Response of AMANDA to cosmic ray muons Cosmic ray flux measurement
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Recent Results Lutz Köpke University of Mainz, Germany July 31, 2003 http://amanda.uci.edu
Cosmic rays Neutrinos Upgrade and IceCube Contributed papers to ICRC Response of AMANDA to cosmic ray muons Cosmic ray flux measurement Cosmic ray composition at the knee with SPASE and AMANDA Atmospheric neutrino and muon spectra Search for diffuse fluxes of extraterrestrial muon neutrinos AMANDA-B10 limit on UHE-Neutrinos Search for high energy neutrinos of all flavours Search for extraterrestrial point sources of neutrinos Search for muons from WIMP annihilation in center of earth Search for high energy neutrinos from GRBs Online search for neutrino bursts from Supernovae New capabilities of the AMANDA detector The IceCube high energy neutrino telescope IceTop: the surface component of IceCube Simulation of ice Cherenkov detectors for IceTop + 3 individual contributions black: parallel talk
Physics motivation • origin and acceleration of cosmic rays • understand cosmic cataclysms • find new kind of objects? • neutrino properties ( , cross sections ..) • dark matter (neutralino annihilation) • tests of relativitiy .... • search for big bang relics ... • effects of extra dimension etc. ...
Supernova remnant Microquasar (SS433 etc.) Active Galaxy (optically dense, e.g. FRII) 1 LJ 106 LJ Crab nebula Black hole with mass of sun Black hole with 108 x mass of sun extra-galactic galactic Neutrino source candidates
Importance of all flavor detection Extended source with e:: =1:2:0 production (e.g. decay): Expect for Maki-Nakagawa-Sakato mixing matrix with 12=30°, 23=45°, 13=0°: e:: =1:1:1 on earth O(10) x less background for e – but you don’t profit from long -range Regeneration of - no absorption in earth even at very high energies !
O(km) long muon tracks Electromagnetic and hadronic cascades 15 m ~ 5 m direction determination by cherenkov light timing Detection of e , ,
cosmic radiation (e) Above O(PeV): significant absorption: O(10 PeV) (e) atmospheric muons O(PeV): use horizontal events O(10 PeV): use events from above earth acts as shield Detection of muon neutrinos
Mediterranean (ocean) Antares, Nestor, 1 km3 ... South Pole (ice) AMANDA, ICECUBE galactic center in middle dots: distribution of gamma ray bursts (GRBs) Complementarity (point sources): E < 100 TeV
Baikal NT200 Antares Nestor March 17, 2003 2 strings connected 2400 m deep completion: start 2006 March 29, 2003 1 of 12 floors deployed 4000 m deep completion: 2006 1100 m deep data taking since 1998 new: 3 distant strings Northern hemisphere detectors
Optical module 1996-2000 AMANDA II Detector Amundsen-Scott Station South Pole
150 members The AMANDA Collaboration Bartol Research Institute UC Berkeley UC Iivine Pennsylvania State UW Madison UW River Falls LBL Berkeley U. Simón Bolivar, Caracas VUB, Brussel ULB-IHEE, Bruxelles U. de Mons-Hainaut Imperial College, London DESY, Zeuthen Mainz Universität Wuppertal Universität Stockholm Universitet Uppsala Universitet Kalmar Universitet South Pole Station Antarctica Antarctica New Zealand Venezuela (1) USA (7+3) Europe (10+1) Japan + associated institutes e.g. Chiba University
South Pole AMANDA The laboratory
200 TeV e candidate Two events ...
effective area (schematic): -interaction in earth, cuts 2 -5m2 En 2 3 cm2 100 GeV 100 TeV 100 PeV Detector capabilities • muons: • directional error: 2.0 - 2.5° • energy resolution:¶0.3 – 0.4 • coverage: 2 • primary cosmic rays:(+ SPASE) • energy resolution:¶0.07 – 0.10 • „cascades“: (e±, , neutral current) • zenith error: 30 - 40° • energy resolution:¶ 0.1 – 0.2 • coverage: 4 ¶[log10(E/TeV)]
poster 1-P-265 Atmospheric muons in AMANDA-II Atmospheric muons and neutrinos: AMANDA‘s test beams much improved simulation ...but data 30% higher than MC ... normalize to most vertical bin Systematic errors: 10% scattering ( 20m @ 400nm) absorption (110m @ 400nm) 20% optical module sensitivity 10% refreezing of ice in hole PRELIMINARY threshold energy ~ 40 GeV (zenith averaged)
talk HE2.1-13 for QGSJET generator: (H) = 2.70 ± 0.02 0 (H) = 0.106(7) m-2s-1sr-1TeV-1 Compatible and competitive () with direct measurements Cosmic Ray flux measurement In some cases ice and OM-sensitivity effect can be circumvented ... (E)=0E- empirical separation of ice and OM sensitivity effects PRELIMINARY
talk HE 1.1-25 iron AMANDA (correlate to #muons) proton log(E/GeV) SPASE-2 (correlated to #electrons) robust evidence for composition change around knee ... cosmic ray composition studies SPASE-2 (electronic component) - AMANDA B10 (muonic component) - unique combination! AMANDA II
talk HE 1.1-25 blue band: detector and model uncertainties red band: uncertainty due to low energy normalization confirms trend seen by other experiments ... Composition change around „knee“ 1015 eV 1016 eV A=30 A=6 publication in preparation 1998 data
talk HE 2.3-6 spectrum up to 100 TeV compatible with Frejus data presently no sensitivity to LSND/Nunokawa prediction of dip structures between 0.4-3 TeV In future, spectrum will be used to study excess due to cosmic ‘s Atmospheric n's in AMANDA-II neural network energy reconstruction regularized unfolding PRELIMINARY measured atmospheric neutrino spectrum 1 sigma energy error
poster HE talk HE 2.3-4 cascades (2000 data) Excess of cosmic neutrinos? Not yet ... .. for now use number of hit channels as energy variable ... muon neutrinos (1997 B10-data) accepted by PRL „AGN“ with 10-5 E-2 GeV-1 cm-2 s-1 sr-1 cuts determined by MC – blind analyses !
poster 1-P-256 poster 1-P-257 Expected sensitivity 2000 data: ~ 310-7 GeV-1 cm-2 s-1 sr-1 Diffuse flux muon neutrinos Note that limits depend on assumed energy spectrum ... 3·103 – 106 GeV: E2(E) < 8 10-7 GeV-1 cm-2 s-1 sr-1 prel. 2.5 ·106 – 5.6 ·108 GeV: E2(E) < 7.2 10-7 GeV-1 cm-2 s-1 sr-1 AMANDA II (with 3 years data): ~ 10 X higher Sensitivity
talk HE 2.3-4 For E2(E) =10-6GeV cm-2s-1sr-1 flux would expect: 9.3 e , 6.2 , 8.0 events 2 candidate events total observed 90% CL limit, assuming e:: =1:1:1 : E2all (E) < 9·10 - 7 GeV cm-2s-1sr-1 Diffuse limit cascades Effective volume 80 TeV – 7 PeV PRELIMINARY
talk HE 2.3-4 Flux results summary (all flavors) assuming e:: =1:1:1 ratio: special analysis for resonant production (6.3 PeV) multiplicative factor 3 applied for single e , channels … ...can combine analyses! 2000 analysis will yield comparable result ...
DUMAND test string NT-200 FREJUS AMANDA-97 NT-200+ AMANDA-II IceCube AMANDA-00 MACRO Theoretical bounds and future opaque for neutrons MPR neutrons can escape atmospheric W&B Mannheim, Protheroe and Rachen (2000) – Waxman, Bahcall (1999) derived from known limits on extragalactic protons + -ray flux
talk HE 2.3-5 above horizon: mostly atmospheric ‘s below horizon:mostly fake events sky subdivided into 300 bins (~7°x7°) Point source search in AMANDA II Search for excess events in sky bins for up-going tracks PRELIMINARY 697 events observed above horizon 3% non-neutrino background for > 5° cuts optimized in each declination band no clustering observed - no evidence for extraterrestrial neutrinos ...
talk HE 2.3-5 upper limits @ 90% CL in units of 10-8cm-2s-1 ¶published Ap. J, 582 (2003) Selected point source flux limits sensitivity flat above horizon - 4 times better than B10 ¶! PRELIMINARY declination averaged sensitivity: lim 0.23•10-7 cm-2s-1 @90%
N Crab Mark. 501 preliminary 2000 data GX 339-4 Antares (2007+) SS-433 AMANDA+16 (2007) -45 0 45 90 -90 1 km3 1 km3 detector, 3 years Expected source sensitivity muons/cm2 s1 AMANDA 137 days 10-14 S MACRO 8 years published data 10-15 10-16 10-17 declination (degrees)
talk OG 2.4-7 317 BATSE triggers (1997—2000) effective -area 50000 m2 low background due to space- time coincidence No excess observed! assuming WB spectrum 4 x 10-8GeV/s/cm2/sr analysis continues with non-triggered BATSE and IPN3 data … GRB n search in AMANDA Search for candiates correlated with GRBs - background established from data <20° PRELIMINARY
Outlook ... did not mention new improved search for WIMPs (HE 3.3-6) ... supernova detection (1-P-258) etc. • combined analysis 1997-2003: 8 x more days ! • improved selection and analysis methods ... • new transition waveform based readout installed 02/03 • improved performance in particular at high energies (1-P-264) • first IceCube strings 2004/05 – combined analysis with AMANDA
Is there a signal at higher energies? no indication of clustering also at higher energies ! increasing energy deposition
Sun Crab Nebula Cassiopeia. A LMC Cygnus-X1 SMC Approximate AMANDA horizon 90 000 light years