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

Slides:



Advertisements
Similar presentations
Trigger issues for KM3NeT the large scale underwater neutrino telescope the project objectives design aspects from the KM3NeT TDR trigger issues outlook.
Advertisements

The IceCube Neutrino Telescope Kyler Kuehn Center for Cosmology and AstroParticle Physics The Ohio State University Novel Searches for Dark Matter CCAPP.
Sean Grullon For the IceCube Collaboration Searching for High Energy Diffuse Astrophysical Neutrinos with IceCube TeV Particle Astrophysics 2009 Stanford.
IceCube.
SUSY06, June 14th, The IceCube Neutrino Telescope and its capability to search for EHE neutrinos Shigeru Yoshida The Chiba University (for the IceCube.
Search for Extremely-high Energy Cosmic Neutrino with IceCube Chiba Univ. Mio Ono.
Gary C. Hill, CCAPP Symposium 2009, Ohio State University, October 12th, 2009 Photograph: Forest Banks Gary C. Hill University of Wisconsin, Madison for.
The IceCube High Energy Telesope The detector elements Expected Sensitivity Project Status Shigeru Yoshida Dept. of Physics CHIBA Univ. ICRC 2003.
Neutrino Astronomy at the South Pole David Boersma UW Madison “New Views of the Universe” Chicago, 10 December 2005.
IceCube a kilometer-scale deep-ice observatory in Antarctica Olga Botner Uppsala university, Sweden Neutrino 2004, June 14-19, icecube.wisc.edu.
1 IceCube: A Neutrino Telescope at The South Pole Chihwa Song UW-Madison photographed by Mark Krasberg 4 th Korean Astrophysics Workshop May 17-19, 2006.
Per Olof Hulth Stockholm university1 NSF Review March 25-27, 2003 Introductory remarks Per Olof Hulth Stockholm university.
A km 3 Neutrino Telescope: IceCube at the South Pole Howard Matis - LBNL for the IceCube Collaboration.
IceCube 40Point Source AnalysisResultsConclusions Search for neutrino point sources with the IceCube Neutrino Observatory Menlo Park, California TeVPA.
Alexander Kappes LTP/PSI Colloquium Paul Scherrer Institut, 30. Sept Neutrinos on the rocks – Astronomy at the South Pole with IceCube.
IceCube S Robbins University of Wuppertal Moriond - “Contents and Structures of the Universe” La Thuile, Italy, March 2006 Outlook for Neutrino Detection.
The next generation of Neutrino telescopes -ICECUBE Design and Performance, Science Potential Albrecht Karle University of Wisconsin-Madison
Frontiers in Contemporary Physics: May 23, 2005 Recent Results From AMANDA and IceCube Jessica Hodges University of Wisconsin – Madison for the IceCube.
First Results from IceCube Physics Motivation Hardware Overview Deployment First Results Conclusions & Future Plans Spencer Klein, LBNL for the IceCube.
Neutrino Astronomy at the South Pole David Boersma UW Madison Lake Louise Winter Institute Chicago, 23 February 2006.
CIPANP 2006K. Filimonov, UC Berkeley From AMANDA to IceCube: Neutrino Astronomy at the South Pole Kirill Filimonov University of California, Berkeley.
Neutrino Point Source Searches with IceCube 22 String Configuration Michael Baker, for the IceCube Collaboration University of Wisconsin, Madison APS April.
The Status of IceCube Mark Krasberg University of Wisconsin-Madison RICH 2004 Conference, Playa del Carmen, Mexico Dec 3, 2004.
Kara Hoffman, the University of Maryland. the Antarctic Muon and Neutrino Array.
News from the South Pole: Recent Results from the IceCube and AMANDA Neutrino Telescopes Alexander Kappes UW-Madison PANIC ‘08 November 2008, Eilat (Israel)
Searching for Quantum Gravity with AMANDA-II and IceCube John Kelley November 11, 2008 PANIC’08, Eilat, Israel.
Neutrino Astronomy at the South Pole Searches for astrophysical high-energy neutrinos with IceCube Kurt Woschnagg UC Berkeley Miami 2012 Lago Mar, Ft Lauderdale,
COSMO/CosPA 2010 Searches for the Highest Energy Neutrino with IceCube Searches for the Highest Energy Neutrino with IceCube Aya Ishihara ( Fellow) (JSPS.
B.Baret Vrije Univertsiteit Brusse l Vrije Universiteit Brussel, Belgium The AMANDA – IceCube telescopes & Dark Matter searches B. Baret on behalf of the.
SEARCHING FOR A DIFFUSE FLUX OF ULTRA HIGH-ENERGY EXTRATERRESTRIAL NEUTRINOS WITH ICECUBE Henrik Johansson, for the IceCube collaboration LLWI H.
C Alexander Kappes for the IceCube Collaboration 23 rd European Cosmic-Ray Symposium Moscow, 7. July 2012 Neutrino astronomy with the IceCube Observatory.
Madison, May 20, 2009 Tom Gaisser1 IceCube Collaboration Overview & Response to 2008 SAC Report.
IceCube a new window on the Universe Muons & neutrinos Neutrino astronomy IceCube science Status & plans Tom Gaisser for the IceCube Collaboration Arequipa,
IceCube and AMANDA: Neutrino Astronomy at the South Pole Brennan Hughey February 22nd, 2007.
1 Jan Conrad (CERN) GLAST Lunch, 09. Mar. 2006, Jan Conrad (KTH) The AMANDA neutrino telescope: Results from GRB and dark matter searches Jan Conrad (KTH,
The IceCube Neutrino Observatory is a cubic kilometer detector at the geographic South Pole. We give an overview of searches for time-variable neutrino.
Alexander Kappes Erlangen Centre for Astroparticle Physics for the ANTARES collaboration IAU GA, SpS 10, Rio de Janeiro, Aug Status of Neutrino.
KEK, Feb 27, 2006Tom Gaisser1 Cosmic-ray physics with IceCube IceTop the surface component of IceCube.
XIX European Cosmic Ray Symposium Firenze (Italy) Neutrino Astronomy and Cosmic Rays at the South Pole Latest.
Science Advisory Committee March 30, 2006 Jim Yeck IceCube Project Director IceCube Construction Progress.
Status and Results Elisa Bernardini DESY Zeuthen, Germany VLVnT Workshop Amsterdam, Oct (
IPPOG masterclass working group May 15, Building an IceCube Collaboration outreach activity Inspired by the International Masterclasses for hands-
IceCube: Status and Results
IceCube project Shigeru Yoshida Dept. of Physics, Chiba University.
Searching for Quantum Gravity with AMANDA-II and IceCube John Kelley IceCube Collaboration University of Wisconsin, Madison, U.S.A. October 27, 2008 KICP.
Alexander Kappes Extra-Galactic sources workshop Jan. 2009, Heidelberg Gamma ray burst detection with IceCube.
Icecube Neutrino Observatory at the South Pole Kirill Filimonov, University of California, Berkeley, for the IceCube Collaboration.
Carlos de los Heros Division of High Energy Physics Uppsala University EPS2005 Lisbon, July 21-27, 2005 GETTING THERE: FROM AMANDA TO ICECUBE.
1 Particles and Nuclei International Conference (PANIC05) Santa Fe, NM (U.S.A.) October 24 th, from Quark n.36, 02/01/04 Neutrino.
1 slide Brennan Hughey University of Wisconsin – Madison for the AMANDA Collaboration Recent Results From the AMANDA Experiment Rencontres du Vietnam August.
IceCube Neutrino Telescope Astroparticle Physics at the South Pole Brendan Fox Pennsylvania State University for the IceCube Collaboration VLVNT08 - Very.
Search for Ultra-High Energy Tau Neutrinos in IceCube Dawn Williams University of Alabama For the IceCube Collaboration The 12 th International Workshop.
High-energy Neutrino Astrophysics with IceCube Neutrino Observatory
Albrecht Karle University of Wisconsin - Madison for the IceCube Collaboration IceCube Current status, recent results and future prospects.
Dark Matter Searches with AMANDA and IceCube Catherine De Clercq for the IceCube Collaboration Vrije Universiteit Brussel Interuniversity Institute for.
1 Patrick Berghaus University of Wisconsin, Madison AMANDA/IceCube CRIS Malfa, September 2008 AMANDA and IceCube Patrick Berghaus University of Wisconsin,
1 IceCube Christian Spiering for the IceCube Collaboration EPSC, Cracow July 2009.
Downgoing Muons in the IceCube experiment: Final presentation for Phys 735, Particle, Prof. Sridhara Dasu L.Gladstone 2008 Dec 3.
The IceCube Neutrino Observatory is a cubic kilometer detector currently under construction at the geographic South Pole. We will give an overview of searches.
Measuring the total neutrino cross section using the IceCube detector
Imaging the Neutrino Universe with AMANDA and IceCube
Julia Becker for the IceCube collaboration
Imaging the High-Energy Neutrino Universe from the South Pole
Recent Results of Point Source Searches with the IceCube Neutrino Telescope Lake Louise Winter Institute 2009 Erik Strahler University of Wisconsin-Madison.
IceCube Neutrino Telescope Astroparticle Physics at the South Pole
Status and prospects of the IceCube Neutrino Telescope
The IceCube Neutrino Telescope
science with 40 IceCube strings
IceCube Construction and Analysis Report
Time-Dependent Searches for Neutrino Point Sources with IceCube
Presentation transcript:

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

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

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

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

I Taboada, GA Tech Event Topologies Topologies 5

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 Netherlands: Utrecht University Switzerland: EPFL The IceCube collaboration

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

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

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

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

I Taboada, GA Tech h 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

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 A. Abdoet. al. ArXiv:astro-ph/ , IceCube skymap is consistent with northern hemisphere observations

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

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

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

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

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

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

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

I Taboada, GA Tech Overflow

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

Feedback: Privacy Policy Feedback
Do Not Sell My Personal Information
About project: SlidePlayer Terms of Service

© 2024 SlidePlayer.com Inc. All rights reserved.