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The Long March Towards High Energy Neutrino Astronomy. C. Spiering, Leeds, July 23, 2004. Entrance to the Promised Land after 40 Years !. Moisej Markov. Bruno Pontecorvo. M.Markov, 1960 : We propose to install detectors deep in a lake or in the sea and to determine the direction of
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The Long March Towards High Energy Neutrino Astronomy C. Spiering, Leeds, July 23, 2004
Entrance to the Promised Land after 40 Years !
Moisej Markov Bruno Pontecorvo M.Markov,1960: We propose to install detectors deep in a lake or in the sea and to determine the direction of charged particles with the help of Cherenkov radiation
Pioneering DUMAND Fred Reines John Learned + Roberts, Stenger, Gorham, .. ~ 1975: first meetings towards an underwater array close to Hawaii
DUMAND-II Proposal 1988 : - 216 PMTs at 9 strings - height 230 m Alas ! ... terminated in 1996
Later used by Amanda and Baikal 1987: DUMAND test string
DUMAND FREJUS bound MACRO WB bound Search for diffuse excess of extra-terrestrial high energy neutrinos log E /GeV
Neutrino Telescopes Underground KGF Baksan FREJUS IMB Kamiokande Superkamiokande MACRO e.g. MACRO, 1356 upgoing muons ~ 1000 m²
Pioneering BAIKAL Bezrukov, Domogatsky Berezinsky, Zatsepin • 1981 first site explorations • 1984 first stationary string • first neutrino detector NT-36 • 1994 first atm. neutrino separated • 1998 NT-200 finished G. Domogatsky ~ 2x Super-K for 1 TeV muons
Camp Ice as a natural deployment platform
3600 m 1366 m NT-200 4-string stage (1996)
NT-200 Look for upward moving light fronts. Signal: isolated cascades from neutrino interactions Background: Bremsshowers from h.e. downward muons large effective volume Baikal Search for H.E.Cascades
NT-200 NT-200 140 m cascades Baikal Upgrade NT200+ 36 additional PMTs 4 times better sensitivity !
Mediterannean approaches NESTOR (since 1991) „Amanda-sized“ -- under construction ANTARES(since 1996) „Amanda sized“ -- under construction NEMO: R&D for km3 project Since 2003: joined km3 initiative KM3NET
2400m ANTARES 4100m 3400m NEMO NESTOR
Beyond the DUMAND scale: AMANDA first site studies at South Pole ~ 1990 shallow detector in bubbly ice 1993/4 10 strings (Amanda-B10) 1997 19 strings (Amanda-II) 2000 Francis Halzen + Steve Barwick, Bob Morse, ....
AMANDA Super-K DUMAND depth Amanda-II: 677 PMTs at 19 strings (1996-2000) AMANDA-II
Drilling Hot water drilling
AMANDA Event Signatures:Muons CC muon neutrino interaction track nm + N m + X
AMANDA Event Signatures: Cascades • CC electron and tau neutrino interaction: • (e,,) + N (e, ) + X • NC neutrino interaction: x + N x + X Cascades
First spectrum > 3 TeV: - up to 100 TeV - matches lower-energy Frejus data PRELIMINARY
Skyplot Amanda-II, 2000 697 events below horizon above horizon: mostly fake events
Intrinsic source spectrum (corrected for IR absorption) Measured spectrum AMANDA average flux limit for two assumed spectral indices , compared to the average gamma flux of Markarian 501 as observed in 1997 by HEGRA. AMANDA-II has reached the sensitivity needed to search from neutrino fluxes from TeV gamma sources of similar strength to the instrinsic gamma flux.
90% C.L. upper limits (in units of 10-8cm-2s-1) for selected sources for an E-2 spectral shape integrated above Eν=10 GeV PRELIMINARY
AMANDA skyplot 2000-2003 optimized for best sensitivity to E-3 – E-2 sources Preliminary 3369 events
Preliminary Cas A Mk501 Mk421 Cyg Crab M87 SS433
Selected Source Analysis Stacking Source Analysis Galactic Plane Transient Sources Burst Search Correlation Analysis Multi-Pole Analysis Lower energy threshold (optimize to steeper spectra)
SS-433 Mk-501 / ~ 1 -45 0 45 90 -90 Measured sensitivity 00-03 Expected sensitivity for AMANDA 97-03 m cm-2 s-1 southern sky northern sky 4 years Super-Kamiokande 170 days AMANDA-B10 10-14 230 days AMANDA-II 8 years MACRO 10-15 declination (degrees)
Search for a Diffuse Extraterrestrial Flux
DUMAND FREJUS bound MACRO Amanda-II (2000) WB bound Expectation Amanda-II, 3 years Expectation IceCube, 3 years Experimental Limits Baikal (98,99,00) Amanda-B10 (1997), UHE Amanda-B10 (1997) Amanda-II (2000) cascades In red: only muons In blue: all flavors
bound bound WB bound WB bound e:: = 1:2:0 1:1:1
bound bound WB bound WB bound
DUMAND FREJUS bound bound MACRO WB bound WB bound Expectation Amanda-II, 3 years Expectation IceCube, 3 years Experimental all-flavor limits Baikal (98,99,00) Amanda-B10 (1997) Amanda-B10 (1997), UHE Amanda-II (2000) Amanda-II (2000) cascades
Search for neutrinos related to Gamma Ray Bursts
-1 hour +1 hour 10 min Blinded Window Background determined on-source/off-time Background determined on-source/off-time t=0+1h Waxman/Bahcall 99 • Low background (due narrow time and space coincidence) • - Large effective areas (50 000 m² @ 1 PeV) Upper limit: 16 · Waxman/Bahcall flux
Indirect Search for WIMPs Neutrinos from the Sun Amanda At South Pole the Sun sinks maximally 23° below horizon. Therefore only Amanda-II with its dramatically improved reconstruction capabilities for horizontial tracks (compared to Amanda-B10) can be used for solar WIMP search.
Present upper limits and expected IceCube sensitivity on muon flux from neutralino annihilations in center of Sun Disfavored by direct search
10-14 10-15 10-16 10-17 10-18 0.50 0.75 1.00 = v/c Search for relativistic magneticmonopoles Soudan KGF Baikal-98,99,00 MACRO Orito upper limit (cm-2 s-1 sr-1) Cherenkov-Light n2·(g/e)2 Amanda-97 electrons n = 1.33 (g/e) = 137/ 2 IceCube 8300
Supernova Burst Monitor