AMANDA Lessons Antarctic Muon And Neutrino Detector Array
South Pole, Summer 91/92 Muon rates consistent with 25 m absorption length
Francis Halzen: The success of AMANDA stood on two pillars: the Amundsen Scott Station and Bruce Koci. Bruce Koci ( 2006)
Deploy 4 strings at m depth
Sweden joins (Stockholm, Uppsala)
1 km 2 km 93/94 40 m CATASTROPHAL DELAY OF LIGHT ! AMANDA-A
Vostok Data February 94: Amanda measures delay March 94, Venice: G. Domogatsky points to Vostok results: it is scattering by remnant air bubbles ! April 94: tendency confirmed by Amanda data!
Vostok Data February 94: Amanda measures delay March 94, Venice: G. Domogatsky points to Vostok results: it is scattering by remnant air bubbles ! April 94: tendency confirmed by Amanda data!
February 94: Amanda measures delay March 94, Venice: G. Domogatsky points to Vostok results: it is scattering by remant air bubbles ! April 94: tendency confirmed by Amanda data! (delay time of light)
Vic Stenger (DUMAND): This is what Amanda sees
F.H.: and this is what DUMAND sees
1 km 2 km Detector works very stable Lousy scattering length ~ 1m, but: absorption length ~ 200 m ! 40 m Supernova detection Can detect Supernovae with non-tracking detector! No tracking. But photons survive for long time
1995: DESY joins
1 km 2 km 95/96 no bubbles left scattering now dominated by dust average scattering length ~ 25 m average absorption length >100 m down to wavelength of 337 nm ! 60 m AMANDA-B4
1 km 2 km 95/96 60 m AMANDA-B4... and: the first 2 neutrinos!
From ² fit to tailored Likelihood Scattering tt far track close track 0 t
1 km 2 km 96/97 AMANDA - B m ~300 neutrino events separated from 1997 data (~ 6 months) first physics intensive learning period on ice dust layers as well as hole ice 6 additional strings
1 km 2 km IceCube will work ! 120 m The EVA event 96/97 AMANDA - B10
1 km 2 km 120 m 96/97 AMANDA - B10 B10 skyplot published in NATURE, neutrino candidates - far from horizon!
1 km 2 km 3 strings instrumented between m study deep and shallow ice for future IceCube Season 97/98
Ice properties vs. depth and wavelength Scattering Absorption bubbles dust ice
1 km 2 km Lessons: - Need rigid long term tests - Selection of components - Lower HV The gain-drop problem
1 km 2 km total of 19 strings with 677 PMTs greatly enhanced sensitivity at horizon angular resolution ~ 2 degrees test IceCube technology (string 18) 200 m Nearly horizontal 1999/2000 AMANDA-II
1 km 2 km 1999/2000 AMANDA-II Alas! The stuck string Lesson: - Fast is good. Too fast is bad. - More careful optimization of drilling regime !
1 km 2 km SPASE air shower arrays resolution Amanda-B10 ~ 3° absolute pointing < 1.5 ° results in ~ 2.5° for upward moving muons Use SPASE for pointing studies
Evolution of read-out strategy - cost - robustness - dyn. range - easy calibration - timing - dyn. range - no x-talk Test of IC3 technology
dAOM versus DOM copper cable digital optical fibre analog but a) HV in OM b) PM-anode amplifier LED (dynamic range!)
Lesson: take the best and then collaborate! in ice: DOM (Digital Optical Module): LBNL at surface: DOR (DOM Receiver Card): DESY
AMANDA = 30 x SuperK, MACRO (AMANDA = 1/30 IceCube)
AMANDA 7 years: The results 6595 neutrinos up to record energy of 200 TeV Record limits on fluxes for cosmic neutrinos (diffuse, point sources, GRB) Record limits on indirect dark matter search, magnetic monopoles, tests of Lorentz invariance Monitoring the galaxy for supernova bursts Spectrum and composition of cosmic rays
Challenges
The bubble problem Amanda: to be or not to be
The ice challenge Kurt
Reconstructing tracks
The gain drop problem
The stuck string
Finding the best technology
Without AMANDA, we would not have solved – even not recognized – these issues!