2015
- ALICE Collaboration
Precision measurement of the mass difference between light nuclei and anti-nuclei
arXiv:1508.03986, Nature Physics 11 811 (2015) - J. Davis, J. Silk, C. Boehm, et al.
Shocking Signals of Dark Matter Annihilation
arXiv:1507.04962 - P. von Doetinchem, T. Aramaki, S. Boggs, et al.
GAPS – Dark matter search with low-energy cosmic-ray antideuterons and antiprotons
arXiv:1507.02717 - P. von Doetinchem, T. Aramaki, S. Boggs, et al.
Status of cosmic-ray antideuteron searches
arXiv:1507.02712 - T. Aramaki, C.J. Hailey, S.E. Boggs, et al.
Antideuteron Sensitivity for the GAPS Experiment
arXiv:1506.02513, Astropart. Phys. 74, 6 (2016) - T. Aramaki, S. Boggs, S. Bufalino, et al.
Review of the theoretical and experimental status of dark matter identification with cosmic-ray antideuterons
arXiv:1505.07785, Phys. Rep. (2016) - L. Dal, A. Raklev
An Alternative Formation Model for Antideuterons from Dark Matter
arXiv:1504.07242, Phys. Rev. D 91, 123536 (2015) - T. Delahaye, M. Grefe
Antideuterons from Decaying Gravitino Dark Matter
arXiv:1503.01101, JCAP07(2015)012
2014
- A. Urbano, W. Xue
Constraining the Higgs portal with antiprotons
arXiv:1412.3798, JHEP03(2015)133 - J. Lavalle, D. Maurin, A. Putze
Direct constraints on diffusion models from cosmic-ray positron data: Excluding the MIN model for dark matter searches
arXiv:1407.2540, Phys. Rev. D 90, 081301 (2014) - A. Monteux, E. Carlson, J. Cornel
Gravitino Dark Matter and Flavor Symmetries
arXiv:1404.5952, JHEP1408(2014)047 - G. Sau, S. Bhattacharyya
On some properties of Deuteron and Antideuteron production in high energy lead-lead collisions at 158A GeV
arXiv:1403.4572, Int. J. Mod. Phys. E 23, 1450021 (2014) - P. Salati
Dark Matter Annihilation in the Universe
arXiv:1403.4495, Int. J. Mod. Phys. Conf. Ser., 30, 1460256 (2014) - J. P. Lees, BABAR Collaboration
Antideuteron production in Upsilon(nS) decays and in e+e- to qqbar at √s ~10.58GeV
arXiv:1403.4409, Phys. Rev. D 89, 111102 (2014) - L. Dal, A. Raklev
Antideuteron Limits on Decaying Dark Matter with a Tuned Formation Model
arXiv:1402.6259, Phys. Rev. D 89, 103504 (2014) - T. Aramaki, S. Boggs, P. von Doetinchem et al.
Precision Measurement of Low-Energy Antiprotons with GAPS for dark matter and Primordial Black Hole Physics
arXiv:1401.8245, Astropart. Phys. 59, 12 (2014) - A. Hryczuk, I. Cholis, R. Iengo et al.
Indirect Detection Analysis: Wino Dark Matter Case Study
arXiv:1401.6212, JCAP07(2014)031 - M. Cirelli N. Fornengo, M. Taoso et al.
Anti-helium from Dark Matter annihilations
arXiv:1401.4017, JHEP1408(2014)009 - E. Carlson, A. Coogan, T. Linden et al.
Antihelium from dark matter
arXiv:1401.2461, Phys. Rev. D 89, 076005 (2014)
2013
- A. Vittino, N.Fornengo, L. Maccione
Perspectives of dark matter searches with antideuterons
arXiv:1308.4848, Nucl. Instr. Meth. A 742, 145 (2014) - P. von Doetinchem T. Aramaki, N. Bando et al.
The flight of the GAPS prototype experiment
arXiv:1307.3538, Astropart. Phys. 54, 93 (2014) - N. Fornengo, L. Maccione, A. Vittino
Dark matter searches with cosmic antideuterons: status and perspectives
arXiv:1306.4171, J. Cosmol. Astropart. P. 09(2013)031 (2013) - A. Ibarra, S. Wild
Determination of the Cosmic Antideuteron Flux in a Monte Carlo approach
arXiv:1301.3820, Phys. Rev. D 88, 023014 (2013) - C. Hailey, T. Aramaki, P. von Doetinchem et al.
“Dedicated Indirect Searches for Dark Matter Using Antideuterons
arXiv:1305.0234 - P. Draper, J. Feng, P. Kant et al.
Dark Matter Detection in Focus Point Supersymmetry
arXiv:1304.1159, Phys. Rev. D 88, 015025 (2013) - T. Aramaki et al.
A measurement of atomic X-ray yields in exotic atoms and implications for an antideuteron-based dark matter search
arXiv:1303.3871, Astropart. Phys. 49, 52 (2013) - I. Mognet, T. Aramaki, N. Bando et al.,
The Prototype GAPS (pGAPS) Experiment
arXiv:1303.1615, Nucl. Instr. Meth. A 735, 24 (2014) - H. Fuke, R. Ong, T. Aramaki et al.,
The pGAPS experiment: an engineering balloon flight of prototype GAPS
arXiv:1303.0380, Adv. Space Sci. 53 (10), 1432 (2014) - Y. Ma, J. H. Chen, L. Xue
A brief review of antimatter production
arXiv:1301.4902, Front. Phys. 7, 637 (2012)
2012
- A. Ibarra, S. Wild
Prospects of antideuteron detection from dark matter annihilations or decays at AMS-02 and GAPS
arXiv:1209.5539, J. Cosmol. Astropart. P. 1302(2013)021 (2013) - A. Galoyan, V. Uzhinsky
Simulation of Light Antinucleus-Nucleus Interactions
arXiv:1208.3614, Hyperfine Interact. 215 (1-3), 69 (2013) - L. Dal, M. Kachelriess
Antideuterons from dark matter annihilations and hadronization model dependence
arXiv:1207.4560, Phys. Rev. D 86, 103536 (2012) - K. Abe, H. Fuke, S. Haino et al.
Search for Antihelium with the BESS-Polar Spectrometer
arXiv:1201.2967, Phys. Rev. Lett. 108, 131301 (2012)
2011
- Michael Grefe
Indirect searches for gravitino dark matter
arXiv:1111.7117, J. Phys.: Conf. Ser. 375 012035, 2012 - T. Anticic et al.
Antideuteron and deuteron production in mid-central Pb+Pb collisions at 158A GeV
arXiv:1111.2588, Phys. Rev. C 85, 044913 (2012) - J. Swain, T. Paul, A. Widom et al.
Detecting and Identifying Heavy Nuclei and Antinuclei with Standard Detectors
arXiv:1110.5647, - N. Sharma et al.
Production of nuclei and antinuclei in pp and Pb-Pb collisions with ALICE at the LHC
arXiv:1109.4836, J. Phys. G: Nucl. Part. Phys. 38 124189 (2011) - N. Sharma et al.
Production of antinuclei in pp collisions at \sqrt{s} = 7 TeV with ALICE at the LHC
arXiv:1104.3311
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