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I Taboada, GA Tech High-energy neutrino astronomy with IceCube Ignacio Taboada Georgia Institute of Technology for the IceCube collaboration Madison, NDM.

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Presentation on theme: "I Taboada, GA Tech High-energy neutrino astronomy with IceCube Ignacio Taboada Georgia Institute of Technology for the IceCube collaboration Madison, NDM."— Presentation transcript:

1 I Taboada, GA Tech High-energy neutrino astronomy with IceCube Ignacio Taboada Georgia Institute of Technology for the IceCube collaboration Madison, NDM 2009

2 I Taboada, GA Tech The origin of cosmic rays Cosmic ray spectrum Candidate CR sources: Accelerators SN remnants Active Galactic Nuclei Gamma Ray Bursts Other Dark Matter Exotics

3 I Taboada, GA Tech Neutrinos as astronomical messengers Cosmic accelerator B CMB star-light Neutrino Cosmic ray Photon 10 9 Photons Neutrinos C.R. 10 12 10 15 10 18 10 21 Energy (eV)

4 I Taboada, GA Tech High-energy neutrino detection Build a BIG detector (~1 km 3 of water) Build underground Look for up-going events Astrophysical neutrino Cosmic Ray Atmospheric Neutrino Cosmic Ray Atmospheric muon Earth

5 I Taboada, GA Tech Event Topologies Topologies 5

6 I Taboada, GA Tech USA: Bartol Research Institute, Delaware University of California, Berkeley University of California, Irvine Pennsylvania State University Clark-Atlanta University Ohio State University Georgia Institute of Technology University of Maryland University of Alabama, Tuscaloosa University of Wisconsin-Madison University of Wisconsin-River Falls Lawrence Berkeley National Lab. University of Kansas Southern University and A&M College, Baton Rouge University of Alaska, Anchorage Sweden: Uppsala Universitet Stockholm Universitet UK: Oxford University Belgium: Université Libre de Bruxelles Vrije Universiteit Brussel Universiteit Gent Université de Mons-Hainaut Germany: DESY-Zeuthen Universität Bonn Universität Mainz Universität Dortmund Universität Wuppertal Humboldt Universität MPI Heidelberg RWTH Aachen Ruhr-Universität Bochum Japan: Chiba University New Zealand: University of Canterbury 34 institutions, approx. 250 members http://icecube.wisc.edu Netherlands: Utrecht University Switzerland: EPFL The IceCube collaboration

7 I Taboada, GA Tech IceCube Status IceTop 118 / 160 Tanks 2 DOMs per tank IceCube “In-Ice” 59 / 86 Strings 60 DOMs per string AMANDA Deep Core Completion: January 2011 Detector takes data during construction Eiffel Tower 324 m

8 I Taboada, GA Tech IceCube performance Low noise rates: ~300Hz (SPE/sec) – Rate with correlated pulses ~500Hz – Supernova detection High duty cycle: >96% Event rates (59 strings) – Muons: ~1.5 kHz – Neutrinos: ~160/day

9 I Taboada, GA Tech Observation of the Moon shadow (with 5 months of IC40) Moon max. altitude at the South Pole (2008): 28° Median primary cosmic ray energy: 30TeV Deficit: 5  ~900 events of ~28000) - consistent with expectation. Verification of angular resolution and absolute pointing. More statistics will allow study of angular response function Preliminary

10 I Taboada, GA Tech Atmospheric muon neutrinos Muon energy resolution: ~0.3 in log(E) Still working to reduce systematic uncertainties of energy/depth dependence IC-22 string analysis 4492 neutrino events at high purity (>95%) Preliminary

11 I Taboada, GA Tech 90 -90 24h 0 0 90 -90 Cosmic ray large scale anisotropy Data: IC22 4.3*10 9 events Median angular resolution: 3 o Median primary cosmic ray energy: 12 TeV. 12 TeV 126 TeV Preliminary

12 I Taboada, GA Tech Comparison with Tibet and Milagro IceCube &Tibet Array IceCube & Milagro 12 M. Amenomori et. al Science, vol. 314, pp. 439–443, Oct. 2006 A. Abdoet. al. ArXiv:astro-ph/0806.2293, 2008. IceCube skymap is consistent with northern hemisphere observations

13 I Taboada, GA Tech Search for point sources - 40-string(6month) all-sky results 13 175.5 days livetime, 17777 events: 6796 up-going, 10981 down-going Preliminary

14 I Taboada, GA Tech 14 Northern hemisphere Background: atmospheric neutrinos 6796 upgoing events Southern hemisphere Background: atmospheric muons Reduced by 10 -5 using energy cut 10981 downgoing (high energy) muon events 175.5 days livetime, 17777 events: 6796 up-going, 10981 down-going Search for point sources - 40-string(6month) all-sky results Preliminary

15 I Taboada, GA Tech 15 Northern hemisphere Background: atmospheric neutrinos 6796 upgoing events Southern hemisphere Background: atmospheric muons Reduced by 10 -5 using energy cut 10981 downgoing muon events 175.5 days livetime, 17777 events: 6796 up-going, 10981 down-going Search for point sources - 40-string(6month) all-sky results downup Preliminary

16 I Taboada, GA Tech 16 Hottest location in the all-sky search is: r.a.=114.95°, dec.=15.35° Pre-trial -log 10 (p-value) = 4.43 Best-fit # of source events = 7.1 Best-fit spectral index = 2.1 No excess found!  all-sky p-value is 61%, not significant Search for point sources - 40-string(6month) all-sky results Preliminary

17 I Taboada, GA Tech IceCube 22-string:  from GRBs Individual flux calculation for 41 GRBs in the northern hemisphere (Mostly Swift) Limits on prompt and precursor neutrino fluence from GRBs IceCube in coincidence with Fermi/GBM has a 95% of detection potential of Waxman-Bahcall model at 5  in one year. Within 5 years, IceCube will extensively sample the allowed parameter space of the Waxman-Bahcall model. ApJ, in press

18 I Taboada, GA Tech IceCube Northern hemisphere IceCube CPU Iridium satellites ROTSE III SN/GRB Fast reaction to GRB alerts Optical Follow-Up with ROTSE

19 I Taboada, GA Tech Conclusions and outlook IceCube construction is on schedule: – 59 of 86 strings in operation – Completion in February 2011 – AMANDA has been decommissioned IceCube meeting or exceeding its design requirements IceCube already producing scientific results. – Point sources, diffuse, GRBs – Atmospheric neutrinos, cosmic rays – Target of opportunity programs

20 I Taboada, GA Tech Overflow

21 I Taboada, GA Tech The Digital Optical Module (DOM) Hamamatsu 10” Single photo-electrons

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