Jason Koglin – KAVLI Symposium – Dec 11, 20051 Indirect Dark Matter Search with Antideuterons: Progress and Future Prospects for General Antiparticle Spectrometer.

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Presentation transcript:

Jason Koglin – KAVLI Symposium – Dec 11, Indirect Dark Matter Search with Antideuterons: Progress and Future Prospects for General Antiparticle Spectrometer (GAPS) T Aramaki, C J Hailey, J Jou, J E Koglin, H T Yu Columbia Astrophysics Laboratory W W Craig, L Fabris, N Madden, K P Ziock Lawrence Livermore National Laboratory F Gahbauer University of Latvia/Columbia University K Mori CITA/Toronto Thanks to J Collins and LLNL electronics shop, T Decker, R Hill, G Tajiri, M Ieiri and the KEK staff Support in part by a NASA SR&T grant, NAG5-5393

Jason Koglin – KAVLI Symposium – Dec 11, How Does Cold Dark Matter Generate Antideuterons? Hadronization Monte Carlo _p_p _n_n X Dark Matter Model q,h,W…   Coalescence Model _D_D Pair annihilating WIMPS produce: ,, e + … Donato et al. (2000) suggest antideuteron signal Baer & Profumo 2005 Uncertainties in Primary Antideuteron Flux _ p…

Jason Koglin – KAVLI Symposium – Dec 11, Low energy, neutralino-neutralino produced antideuterons are near background free Primary component:  neutralino annihilation _ X+X → D Secondary component:  spallation _ p+H → p+H+D+D _ p+He → p+He+D+D Clean low E, but see Baret et al However, sensitivity demand is daunting Antideuteron flux at the earth (with propagation and solar modulation) Primary Secondary

Jason Koglin – KAVLI Symposium – Dec 11, GAPS is based on radiative emission of antiparticles captured into exotic atoms TOF _D_D Target Segmented Detector Degrader Ladder Deexcitations n=1, l=1 Nuclear Annihilation Exotic Atom         n=1 n=2 n=3 n=4 n=5 n=6 n=n K ~15 n o,l o Atomic Transitions 19 keV 75 keV 35 keV ** ** ** Anti-protonic atoms (in addition to Muonic, Pionic, Kaonic atoms) extensively studied and atomic transitions well understood. Auger e - Refilling e -

Jason Koglin – KAVLI Symposium – Dec 11, Comparison of Direct & Indirect Antideuteron Detection Sensitivities for SUSY DM There are ~20 current or planned direct detection experiments Indirect Antideuteron search offers a complementary method CDMS (Soudan) 2005 Si (7 keV threshold) CDMS (Soudan) Ge (7 keV threshold) CDMS Soudan Ge/Si SD-neutron/proton CDMSII (Projected) Development ZBG SuperCDMS (Projected) Phase C CDMSII (Soudan) projected CUORICINO projected exclusion limit COSME 2001 Exclusion Limit, 72.7 kg-days CRESST-I projection limit, Al2O3 CRESST-II projected limit, CaWO4 CRESST I SD-neutron/proton CRESST II SD-neutron/proton DAMA k kg-days NaI DAMA 2003 NaI SD-neutron/proton DAMA Xe129 DMRC projection for 100kg CsI, 1cpd ELEGANT V NaI SI/SD limit, OTO COSMO Observatory Edelweiss I final limit, 62 kg-days Ge limit Edelweiss SD-neutron/proton Edelweiss Ge, projected GEDEON projection Genius Test Facility projected limit, 2001, energy threshold 2 keV Genino projected exclusion limit, DM2000 Heidelberg - Genius, projected IGEX projected exclusion limit (for 1kgyr) IGEX 2002 Nov limit NAIAD 2005 final result SI/SD PICASSO SD-neutron/proton (2005) SIMPLE SD-neutron/proton ZEPLIN I First Limit (2005) NAIAD spin indep. projected limit, 12 p.e./keV with 100 kg-yrs exposure XENON100 (100 kg) projected sensitivity XENON10 (10 kg) projected sensitivity XENON1T (1 tonne) projected sensitivity ZEPLIN I SD-neutron/proton(preliminary) ZEPLIN 2 projection ZEPLIN 4/MAX projected (2004) SuperK indirect SD-proton Baer & Profumo 2005

Jason Koglin – KAVLI Symposium – Dec 11, Detector approach was dictated by trade between performance and shoe string budget 16 NaI(Tl) detector modules covering 40 cm long x 12 cm diameter target cell Each modular 4x2 arrays of 25mm diameter x of 5 mm thick crystals (128 total) Solid angle coverage ~ KEK Experiment GAPS Detector C 2 F 6 (gas) C (Aerogel)

Jason Koglin – KAVLI Symposium – Dec 11, KEK Accelerator Tests to Demonstrate Fast- timing, Multi-X-ray Spectroscopy Approach TOF [ns] E [keV] TOF & Shower Beam Counters NaI Detector [keV] Charged Veto [MeV] ** ** ** TOF Trigger Counters Degrader Shower Counters Exotic Atom Atomic Transitions Nuclear Annihilation

Jason Koglin – KAVLI Symposium – Dec 11, KEK GAPS Results We clearly get X-rays when we dump Antiprotons into our gas target NaI Energy Deposit [keV] No Target C 2 F 6 Target More importantly, we see X-ray transitions in events with multiple signatures!!! 33 p * 86 Beam Direction NaI Energy [keV] 38 3 X-ray + 1 * Event Hailey et al (accepted by JCAP)

Jason Koglin – KAVLI Symposium – Dec 11, Solid and Liquid Targets Tested in 2005 CCl 4 Al CBr 4 (liquid) S Targets chosen based on known, high Kaonic yields  Goal to measure Antiprotonic atom yields

Jason Koglin – KAVLI Symposium – Dec 11, CBr 4 – KEK 2005 Cut:  2 X-ray &  4 total signals Multi-X-ray Spectrum4 X-ray Transition Event Hailey et al (accepted by JCAP)

Jason Koglin – KAVLI Symposium – Dec 11, Sulfur – KEK 2005 Cut:  2 X-ray &  4 total signals Multi-X-ray Spectrum 2 X-ray + 3 * Event Hailey et al (accepted by JCAP)

Jason Koglin – KAVLI Symposium – Dec 11, Preliminary results from KEK experiments Solid targets have been successfully utilized: simplification over initial gas concept is enormous Gaseous Antiparticle Spectrometer  General Antiparticle Spectrometer Pion stars provide substantial additional antiparticle identification Preliminary results on X-ray yields per capture are consistent with those used in original sensitivity calculations Non-antiparticle background is cleanly identified and rejected  Conclusion: GAPS is probably more promising than originally anticipated

Jason Koglin – KAVLI Symposium – Dec 11, Goal is to conduct balloon-based GAPS antideuteron search by Investigate flight detectors (e.g., CZT, LaCl, NaI), readout geometries (PMT, APD, fiber-coupled scintillator bars) and low cost electronics Detailed design and simulation of flight geometry, extending on original work Design and construction of gondola and first flight module Flight test of prototype GAPS – possibly from Sanriku in Iwate, Japan (T Yoshida & H Fuke have recently joined GAPS collaboration) LDB flight from Antarctica or ULDB flight from Australia (if available)