AMS-02 Refereed Journals

1. Measurements of Cosmic Proton Flux through Neutron Monitors Using Deep Networks and Imputation Techniques in the AMS-02 Era
   Zhao, P et al., ApJS, 282, 5 (2026)
2. The rigidity-dependent delay time of the galactic cosmic ray modulation with respect to the open solar magnetic flux
   Wang, Y et al., A&A, 704, 314 (2025)
3. Optimization of singly-charged particles identification with the AMS02 RICH detector by a machine learning method
   Vasilev, G, Vankova-Kirilova, G & Bozhkova, G, APh, 171, 03134 (2025)
4. A forecasting framework for galactic cosmic ray flux in space weather applications
   Pelosi, D et al., AdSpR, 76, 5700 (2025)
5. Precise Measurement of the Cosmic-Ray Spectrum and <ln A> by LHAASO: Connecting the Galactic to the Extragalactic Components
   Lv, X et al., ApJ, 979, 225 (2025)
6. Solar Modulation of AMS-02 Daily Proton and Helium Fluxes with Modified Force-field Approximation Models
   Zhu, C & Wang, M, ApJ, 980, 116 (2025)
7. Spectra of He Isotopes and the ³He/⁴He Ratio
   Boschini, M et al., ApJ, 981, 85 (2025)
8. Forecasting of the Time-dependent Fluxes of Antiprotons in the AMS-02 Era
   Zhu, C & Duan, K, ApJ, 982, 103 (2025)
9. Probing Solar Modulation of AMS-02 Time-dependent D, ³He, and ⁴He Fluxes with Modified Force-field Approximation Models
   Zhu, C & Wang, M, ApJ, 983, 156 (2025)
10. Multispacecraft Observations of the 27 Day Periodicity in Galactic Protons from 2018 to 2019
    Amoroso, S et al., ApJ, 988, 181 (2025)
11. Puzzling Variation of Gamma Rays from the Sun over the Solar Cycle Revealed with Fermi-LAT
    Acharyya, A et al., ApJL, 989, L16 (2025)
12. Rigidity Dependence of the Long-term Galactic Cosmic Ray Variation by AMS-02
    Modzelewska, R et al., ApJ, 990, 178 (2025)
13. Deciphering the Electron Spectral Hardening in AMS-02
    Evoli, C, Astro, 4, 4 (2025)
14. Measurement of separate electron and positron spectra from 10 to 20 GeV with the geomagnetic field on DAMPE
    Alemanno, F et al., ChPhC, 49, 115001 (2025)
15. Exploring sub-GeV dark matter physics with cosmic ray and future telescopes
    Wang, G et al., EPJC, 85, 1348 (2025)
16. The SDEMMA model for galactic cosmic ray and its dosimetric application
    Song, X et al., FrASS, 12, 83946 (2025)
17. Propagation Times and Energy Losses of Cosmic Protons and Antiprotons in Interplanetary Space
    Tomassetti, N et al., Galax, 13, 23 (2025)
18. Disclosing the catalog pulsars dominating the Galactic positron flux
    Orusa, L et al., JCAP, 02, 029 (2025)
19. Galactic gas models strongly affect the determination of the diffusive halo height
    De Lat Torre Luque, P & Linden, T, JCAP, 02, 062 (2025)
20. Scrutinizing the impact of the solar modulation on AMS-02 antiproton excess
    Duan, K et al., JCAP, 10, 049 (2025)
21. Simulation of Galactic Cosmic Ray Proton Fluxes With the Daily Modulation Parameter: Validation With AMS-02 Data for 2011&ndash;2019
    Vaisanen, P et al., JGRA, 130, 33805 (2025)
22. Late-forming black holes and the antiproton, gamma-ray, and antihelium excesses
    Korwar, M & Profumo, S, PhRvD, 111, 023032 (2025)
23. Constraints on evaporating primordial black holes from the AMS-02 positron data
    Huang, J & Zhou, Y, PhRvD, 111, 083525 (2025)
24. Novel experimental approach to uncover the nature of cosmic-ray deuterium
    Dimiccoli, F & Follega, F, PhRvD, 111, 092002 (2025)
25. Composite asymmetric dark matter with a dark photon portal: Multimessenger tests
    Das, S et al., PhRvD, 112, 015027 (2025)
26. Antinuclei from primordial black holes
    De Romeri, V et al., PhRvD, 112, 023003 (2025)
27. Prediction of lithium isotope fluxes using data-driven production cross sections
    Zhao, M et al., PhRvD, 112, 043022 (2025)
28. Does the high-energy AMS-02 positron flux originate from the dark matter density spikes around nearby black holes?
    Chan, M & Lee, C, PhRvD, 112, 063035 (2025)
29. Robust determination of antinuclei production from dark matter via weakly decaying beauty hadrons
    Di Mauro, M et al., PhRvD, 112, 083017 (2025)
30. Unified solar modulation potential for same-charge cosmic rays and implications for local interstellar spectra
    Zhao, M et al., PhRvD, 112, 123026 (2025)
31. Transport parameters from AMS-02 F/Si data and fluorine source abundance
    Ferronato Bueno, E et al., A&A, 688, 17 (2024)
32. Charge sign dependence of recurrent Forbush decreases in 2016&ndash;2017
    Romaneehsen, L, Heber, B & Marquardt, J, A&A, 690, 31 (2024)
33. Origin of the spectral features observed in the cosmic-ray spectrum
    Recchia, S & Gabici, S, A&A, 692, 20 (2024)
34. Towards understanding time variations of proton to helium ratios in the heliosphere: Implication for the time dependence of the elements of the diffusion tensor
    Ngobeni, M, Potgieter, M & Aslam, O, AdSpR, 73, 2816 (2024)
35. Analysis of the spectrum of 27-day GCR variations in 2015&ndash;2016
    Siruk, S et al., AdSpR, 74, 1978 (2024)
36. Fast and accurate evaluation of deep-space galactic cosmic ray fluxes with HelMod-4/CUDA
    Boschini, M et al., AdSpR, 74, 4302 (2024)
37. Testing Cosmic-Ray Propagation Scenarios with AMS-02 and Voyager Data
    Silver, E & Orlando, E, ApJ, 963, 111 (2024)
38. Precise Measurements of TeV Halos around Geminga and Monogem Pulsars with HAWC
    Albert, A et al., ApJ, 974, 246 (2024)
39. Variations in the Inferred Cosmic-Ray Spectral Index as Measured by Neutron Monitors in Antarctica
    Muangha, P et al., ApJ, 974, 284 (2024)
40. The AMS-02 Cosmic-Ray Deuteron Flux is Consistent with a Secondary Origin
    Yuan, Q & Fan, Y, ApJL, 974, L14 (2024)
41. Local Interstellar Spectra and Solar Modulation of Cosmic-Ray Proton and Helium
    Zhu, C, ApJ, 975, 270 (2024)
42. Impact of a nearby subhalo on the constraint of dark matter annihilation from cosmic ray antiprotons
    Zhao, Y et al., ChPhC, 48, 025103 (2024)
43. Constraining primordial black holes as dark matter using AMS-02 data
    Su, B et al., EPJC, 84, 606 (2024)
44. Antiproton bounds on dark matter annihilation from a combined analysis using the DRAGON2 code
    De La Torre Luque, P, Winkler, M & Linden, T, JCAP, 05, 104 (2024)
45. Cosmic-ray propagation models elucidate the prospects for antinuclei detection
    Luque, P, Winkler, M & Linden, T, JCAP, 10, 017 (2024)
46. Impact of inhomogeneous diffusion on secondary cosmic ray and antiproton local spectra
    Tovar-Pardo, A, Luque, P & Sanchez-Conde, M, JCAP, 11, 016 (2024)
47. D̅ARKRAYNET: emulation of cosmic-ray antideuteron fluxes from dark matter
    Heisig, J et al., JCAP, 11, 017 (2024)
48. The High Energy Light Isotope eXperiment program of direct cosmic-ray studies
    Coutu, S et al., JInst, 19, 1025 (2024)
49. Propagation of Galactic Cosmic Rays in the Heliosphere during Minimum Solar Activity Periods
    Fedorov, Y, KPCB, 40, 64 (2024)
50. Feature Selection Techniques for CR Isotope Identification with the AMS-02 Experiment in Space
    Borchiellini, M et al., Parti, 7, 417 (2024)
51. Current status and desired precision of the isotopic production cross sections relevant to astrophysics of cosmic rays. II. Fluorine to silicon and updated results for Li, Be, and B
    Genolini, Y et al., PhRvC, 109, 064914 (2024)
52. Reexamining the dark matter scenario accounting for the positron excess in a new cosmic ray propagation model
    Lv, X et al., PhRvD, 109, 023023 (2024)
53. Reanalysis of the systematic uncertainties in the cosmic-ray antiproton flux
    Lv, X et al., PhRvD, 109, 043006 (2024)
54. Constraining the slow-diffusion zone size and electron injection spectral index for the Geminga pulsar halo
    Fang, K, PhRvD, 109, 043041 (2024)
55. New understanding of nuclei spectra properties observed by the AMS-02 experiment
    Dong, X et al., PhRvD, 109, 063027 (2024)
56. Probing solar modulation analytic models with cosmic ray periodic spectra
    Long, W & Wu, J, PhRvD, 109, 083009 (2024)
57. Interpretation of AMS-02 beryllium isotope fluxes using data-driven production cross sections
    Zhao, M et al., PhRvD, 109, 083036 (2024)
58. Data-driven constraints on cosmic-ray diffusion: Probing self-generated turbulence in the Milky Way
    Di Mauro, M, Korsmeier, M & Cuoco, A, PhRvD, 109, 123003 (2024)
59. Fireball antinucleosynthesis
    Fedderke, M et al., PhRvD, 109, 123028 (2024)
60. Possible spectral irregularities in the AMS-02 positron spectrum
    Lv, X et al., PhRvD, 109, 123033 (2024)
61. Mapping the AMS-02 and CALET data onto the source spectra and residence times of Galactic cosmic rays
    Cowsik, R & Huth, D, PhRvD, 110, 023028 (2024)
62. Multimessenger observations support cosmic ray interactions surrounding acceleration sources
    Sun, D et al., PhRvD, 110, 103039 (2024)
63. Cosmic-ray deuteron excess from a primary component
    Lv, X et al., PhRvD, 110, 123030 (2024)
64. Inelastic Scattering of Dark Matter with Heavy Cosmic Rays
    Lu, K et al., RAA, 24, 065007 (2024)
65. Revisit of GeV Gamma-Ray Emission from Orion B with the Fermi Large Area Telescope
    Zeng, W et al., RAA, 24, 095011 (2024)
66. Connecting multi-lepton anomalies at the LHC and in Astrophysics with MeerKAT/SKA
    Beck, G et al., APh, 148, 02821 (2023)
67. Diffuse Emission of Galactic High-energy Neutrinos from a Global Fit of Cosmic Rays
    Schwefer, G, Mertsch, P & Wiebusch, C, ApJ, 949, 16 (2023)
68. Properties of Forbush Decreases with AMS-02 Daily Proton Flux Data
    Wang, S et al., ApJ, 950, 23 (2023)
69. Nearby SNR: A Possible Common Origin of Multi-messenger Anomalies in the Spectra, Ratios, and Anisotropy of Cosmic Rays
    Qiao, B et al., ApJ, 956, 75 (2023)
70. A New Scenario of Solar Modulation Model during the Polarity Reversing
    Jiang, J, Lin, S & Yang, L, ApJ, 957, 72 (2023)
71. The Implication of the Helium-to-proton Flux Ratio in Galactic Cosmic Rays
    Song, X & Luo, X, ApJ, 959, 139 (2023)
72. A cosmic-ray database update: CRDB v4.1
    Maurin, D et al., EPJC, 83, 971 (2023)
73. Explaining the Hardening Structures of Helium Spectrum and Boron to Carbon Ratio through Different Propagation Models
    Luo, Q, Feng, J & Tam, P, Galax, 11, 43 (2023)
74. The Formalism of Milky-Way Antimatter-Domains Evolution
    Khlopov, M & Lecian, O, Galax, 11, 50 (2023)
75. Charge Resolution Study on AMS-02 Silicon Layer-0 Prototype
    Ubaldi, A & Graziani, M, Instr, 7, 45 (2023)
76. The PMT Acquisition and Trigger Generation System of the HEPD-02 Calorimeter for the CSES-02 Satellite
    Mese, M et al., Instr, 7, 53 (2023)
77. Enhanced cosmic-ray antihelium production from dark matter annihilation through light mediators
    Ding, Y, Li, N & Zhou, Y, JCAP, 03, 051 (2023)
78. Impact of QCD uncertainties on antiproton spectra from dark-matter annihilation
    Jueid, A et al., JCAP, 04, 068 (2023)
79. Antistars as possible sources of antihelium cosmic rays
    Bykov, A et al., JCAP, 08, 027 (2023)
80. Fast and accurate AMS-02 antiproton likelihoods for global dark matter fits
    Balan, S et al., JCAP, 08, 052 (2023)
81. Unstable cosmic ray nuclei constrain low-diffusion zones in the Galactic disc
    Jacobs, H, Mertsch, P & Phan, V, MNRAS, 526, 160 (2023)
82. Iterative-Bayesian unfolding of cosmic-ray isotope fluxes measured by AMS-02
    Bueno, E, Barao, F & Vecchi, M, NIMPA, 1046, 67695 (2023)
83. Anisotropy of magnetic susceptibility impressed during rock magnetic procedures (AF, IRM) and information on the domain state of the magnetic carriers
    Roperch, P et al., PEPI, 342, 07076 (2023)
84. Revisiting GeV-scale annihilating dark matter with the AMS-02 positron fraction
    Krommydas, I & Cholis, I, PhRvD, 107, 023003 (2023)
85. Observing signals of spectral features in the cosmic-ray positrons and electrons from Milky Way pulsars
    Cholis, I & Hoover, T, PhRvD, 107, 063003 (2023)
86. Can the production cross-section uncertainties explain the cosmic fluorine anomaly?
    Zhao, M, Bi, X & Fang, K, PhRvD, 107, 063020 (2023)
87. Current status and new perspectives on cosmic ray deuterons
    Gomez-Coral, D et al., PhRvD, 107, 123008 (2023)
88. Cosmic ray antihelium from a strongly coupled dark sector
    Winkler, M, Luque, P & Linden, T, PhRvD, 107, 123035 (2023)
89. Using γ -ray observations of dwarf spheroidal galaxies to test the possible common origin of the W -boson mass anomaly and the GeV γ -ray and antiproton excesses
    Zhu, B et al., PhRvD, 108, 083034 (2023)
90. Dark matter in the Higgs resonance region
    Di Mauro, M et al., PhRvD, 108, 095008 (2023)
91. Hysteresis effects observed by AMS02 in cosmic ray solar modulations
    Lipari, P & Vernetto, S, PhRvD, 108, 103010 (2023)
92. Direct Measurement of the Cosmic-Ray Helium Spectrum from 40 GeV to 250 TeV with the Calorimetric Electron Telescope on the International Space Station
    Adriani, O et al., PhRvL, 130, 171002 (2023)
93. Direct Measurement of the Spectral Structure of Cosmic-Ray Electrons+Positrons in the TeV Region with CALET on the International Space Station
    Adriani, O et al., PhRvL, 131, 191001 (2023)
94. Injection Spectra of Different Species of Cosmic Rays from AMS-02, ACE-CRIS and Voyager-1
    Pan, X & Yuan, Q, RAA, 23, 115002 (2023)
95. Data driven analysis of cosmic rays in the heliosphere: diffusion of cosmic protons
    Tomassetti, N et al., RLSFN, 34, 333 (2023)
96. Diffuse Galactic emission spectrum between 0.5 and 8.0 MeV
    Siegert, T et al., A&A, 660, 130 (2022)
97. Are pulsar halos rare?. Modeling the halos around PSRs J0633+1746 and B0656+14 in the light of Fermi-LAT, HAWC, and AMS-02 observations and extrapolating to other nearby pulsars
    Martin, P, Marcowith, A & Tibaldo, L, A&A, 665, 132 (2022)
98. A simple determination of the halo size from ¹⁰Be/⁹Be data
    Maurin, D, Ferronato Bueno, E & Derome, L, A&A, 667, 25 (2022)
99. The importance of Fe fragmentation for LiBeB analyses. Is a Li primary source needed to explain AMS-02 data?
    Maurin, D et al., A&A, 668, 7 (2022)
100. Search for variability in the spectra cosmic ray protons
     Loznikov, V, APh, 143, 02757 (2022)
101. The Measurement of Helium Spectrum and Research of High Energy Astrophysics with DAMPE
     Ma, P, AcASn, 63, 25 (2022)
102. Design of a Low-noise Electronic Readout System for Silicon Micro-strip Detector
     He, Y, Wei, J & Guo, J, AcASn, 63, 65 (2022)
103. Simulations of the solar modulation of Helium isotopes constrained by observations
     Ngobeni, M et al., AdSpR, 69, 2330 (2022)
104. The transport of galactic cosmic rays in heliosphere: The HELMOD model compared with other commonly employed solar modulation models
     Boschini, M et al., AdSpR, 70, 2636 (2022)
105. A Hint of a Low-energy Excess in Cosmic-Ray Fluorine
     Boschini, M et al., ApJ, 925, 108 (2022)
106. Monte Carlo Study of Electron and Positron Cosmic-Ray Propagation with the CALET Spectrum
     Asano, K et al., ApJ, 926, 5 (2022)
107. Hybrid Origins of the Cosmic-Ray Nucleus Spectral Hardening at a Few Hundred GV
     Niu, J, ApJ, 932, 37 (2022)
108. Spectra of Cosmic-Ray Sodium and Aluminum and Unexpected Aluminum Excess
     Boschini, M et al., ApJ, 933, 147 (2022)
109. Gas and Cosmic-Ray Properties in the MBM 53, 54, and 55 Molecular Clouds and the Pegasus Loops Revealed by H I Line Profiles, Dust, and Gamma-Ray Data
     Mizuno, T et al., ApJ, 935, 97 (2022)
110. Testing the consistency of propagation between light and heavy cosmic ray nuclei
     Wang, Y, Wu, J & Long, W, ChPhC, 46, 095102 (2022)
111. Quantitative study of the hardening in the Alpha Magnetic Spectrometer nuclei spectra at a few hundred GV
     Niu, J & Liu, J, FrASS, 9, 44225 (2022)
112. The rigidity dependence of galactic cosmic-ray fluxes and its connection with the diffusion coefficient
     Vecchi, M et al., FrP, 10, 58841 (2022)
113. Research on the structure of cosmic-ray electron and positron fluxes in GeV-TeV energy range
     Zheng, Z, Cui, Z & Ruan, J, IJMPE, 31, 50012 (2022)
114. Pulsar wind nebulae contribution to positron excess in AMS-02 data
     You, T, JApA, 43, 67 (2022)
115. Inverting cosmic ray propagation by convolutional neural networks
     Tsai, Y et al., JCAP, 03, 044 (2022)
116. Constraining time dependent dark matter signals from the Sun
     Zakeri, M & Zhou, Y, JCAP, 04, 026 (2022)
117. FLUKA cross sections for cosmic-ray interactions with the DRAGON2 code
     De La Torre Luque, P et al., JCAP, 07, 008 (2022)
118. Constraining U(1) _{L μ} - _{L τ} charged dark matter model for muon g - 2 anomaly with AMS-02 electron and positron data
     Zu, L et al., JCAP, 08, 028 (2022)
119. Constraining the charge-sign and rigidity-dependence of solar modulation
     Cholis, I, Hooper, D & Linden, T, JCAP, 10, 051 (2022)
120. Constraining the local pulsar population with the cosmic-ray positron fraction
     Bitter, O & Hooper, D, JCAP, 10, 081 (2022)
121. Muonphilic dark matter explanation of gamma-ray galactic center excess: a comprehensive analysis
     Abdughani, M et al., JHEP, 07, 127 (2022)
122. A parametric approach for the identification of single-charged isotopes with AMS-02
     Bueno, E, Barao, F & Vecchi, M, NIMPA, 1031, 66564 (2022)
123. Explanation of nearby SNRs for primary electron excess and proton spectral bump
     Tang, T et al., PhLB, 825, 36884 (2022)
124. Production of light antinuclei in p p collisions by dynamical coalescence and their fluxes in cosmic rays near earth
     Shao, T et al., PhRvC, 105, 065801 (2022)
125. Utilizing cosmic-ray positron and electron observations to probe the averaged properties of Milky Way pulsars
     Cholis, I & Krommydas, I, PhRvD, 105, 023015 (2022)
126. Testing the universality of cosmic-ray nuclei from protons to oxygen with AMS-02
     Korsmeier, M & Cuoco, A, PhRvD, 105, 103033 (2022)
127. New determination of the production cross section for secondary positrons and electrons in the Galaxy
     Orusa, L et al., PhRvD, 105, 123021 (2022)
128. Updated constraints on WIMP dark matter annihilation by radio observations of M31
     Egorov, A, PhRvD, 106, 023023 (2022)
129. Solar modulation of cosmic proton and helium with AMS-02
     Wang, B et al., PhRvD, 106, 063006 (2022)
130. Constraining the charge-, time-, and rigidity-dependence of cosmic-ray solar modulation with AMS-02 observations during Solar Cycle 24
     Cholis, I & McKinnon, I, PhRvD, 106, 063021 (2022)
131. Inert Higgs Dark Matter for CDF II W -Boson Mass and Detection Prospects
     Fan, Y et al., PhRvL, 129, 091802 (2022)
132. Explaining the GeV Antiproton Excess, GeV γ -Ray Excess, and W -Boson Mass Anomaly in an Inert Two Higgs Doublet Model
     Zhu, C et al., PhRvL, 129, 231101 (2022)
133. Cosmic-Ray Boron Flux Measured from 8.4 GeV /n to 3.8 TeV /n with the Calorimetric Electron Telescope on the International Space Station
     Adriani, O et al., PhRvL, 129, 251103 (2022)
134. AMS-02 antiprotons and dark matter: Trimmed hints and robust bounds
     Calore, F et al., ScPP, 12, 163 (2022)
135. Antistars or Antimatter Cores in Mirror Neutron Stars?
     Berezhiani, Z, Univ, 8, 313 (2022)
136. Red dwarf stars as a new source type of galactic cosmic rays
     Sinitsyna, V, Sinitsyna, V & Stozhkov, Y, AN, 342, 342 (2021)
137. Local interstellar spectra and solar modulation of cosmic ray electrons and positrons
     Zhu, C, Yuan, Q & Wei, D, APh, 124, 02495 (2021)
138. Cosmic antihelium-3 nuclei sensitivity of the GAPS experiment
     Saffold, N et al., APh, 130, 02580 (2021)
139. Antiprotons in Cosmic Rays
     Mayorov, A et al., ARep, 65, 985 (2021)
140. Time and Charge-sign Dependence of the Heliospheric Modulation of Cosmic Rays
     Aslam, O et al., ApJ, 909, 215 (2021)
141. The Discovery of a Low-energy Excess in Cosmic-Ray Iron: Evidence of the Past Supernova Activity in the Local Bubble
     Boschini, M et al., ApJ, 913, 5 (2021)
142. Diffusion of Cosmic Antiprotons Generated throughout the Dark Matter Halo-A Semianalytical Solution for a Linear Galactic Wind Model
     Yang, K, ApJ, 914, 110 (2021)
143. Origin of Spectral Hardening of Secondary Cosmic-Ray Nuclei
     Kawanaka, N & Lee, S, ApJ, 917, 61 (2021)
144. Solar Modulation of Galactic Cosmic-Ray Protons Based on a Modified Force-field Approach
     Shen, Z et al., ApJ, 921, 109 (2021)
145. A Numerical Study of the Solar Modulation of Galactic Protons and Helium from 2006 to 2017
     Song, X et al., ApJS, 257, 48 (2021)
146. Origin of hardening in spectra of cosmic ray nuclei at a few hundred GeV using AMS-02 data
     Niu, J, ChPhC, 45, 041004 (2021)
147. Interpretation of the Galactic gamma-ray excess with the dark matter indicated by ⁸Be and ⁴He anomalous transitions
     Jia, L & Li, T, ChPhC, 45, 063101 (2021)
148. High energy window for probing dark matter with cosmic-ray antideuterium and antihelium
     Ding, Y et al., ChPhC, 45, 065102 (2021)
149. Klein-Nishina Effect and the Cosmic Ray Electron Spectrum
     Fang, K et al., ChPhL, 38, 039801 (2021)
150. The Experimental Spectrum of Variations of Cosmic Rays in a Wide Range of Hardness According to AMS-02 Data
     Yanke, V et al., CosRe, 59, 427 (2021)
151. High precision particle astrophysics as a new window on the universe with an Antimatter Large Acceptance Detector In Orbit (ALADInO)
     Battiston, R et al., ExA, 51, 1299 (2021)
152. Nearby source interpretation of differences among light and medium composition spectra in cosmic rays
     Yuan, Q et al., FrPhy, 16, 24501 (2021)
153. Cosmic ray positrons from compact binary millisecond pulsars
     Linares, M & Kachelriess, M, JCAP, 02, 030 (2021)
154. Implications of current nuclear cross sections on secondary cosmic rays with the upcoming DRAGON2 code
     De La Torre Luque, P et al., JCAP, 03, 099 (2021)
155. Possible bump structure of cosmic ray electrons unveiled by AMS-02 data and its common origin along with the nuclei and positron
     Zhang, P et al., JCAP, 05, 012 (2021)
156. Markov chain Monte Carlo analyses of the flux ratios of B, Be and Li with the DRAGON2 code
     De La Torre Luque, P et al., JCAP, 07, 010 (2021)
157. Combined analyses of the antiproton production from cosmic-ray interactions and its possible dark matter origin
     De La Torre Luque, P, JCAP, 11, 018 (2021)
158. Cosmic-ray positrons strongly constrain leptophilic dark matter
     John, I & Linden, T, JCAP, 12, 007 (2021)
159. Constraining positron emission from pulsar populations with AMS-02 data
     Orusa, L et al., JCAP, 12, 014 (2021)
160. Constraining dark matter annihilation with cosmic ray antiprotons using neural networks
     Kahlhoefer, F et al., JCAP, 12, 037 (2021)
161. Positron excess from cosmic ray interactions in galactic molecular clouds
     De Sarkar, A, Biswas, S & Gupta, N, JHEAp, 29, 1 (2021)
162. Has AMS-02 observed two-component dark matter?
     Profumo, S, Queiroz, F & Siqueira, C, JPhG, 48, 015006 (2021)
163. Cosmic rays and non-thermal emission in simulated galaxies - I. Electron and proton spectra compared to Voyager-1 data
     Werhahn, M et al., MNRAS, 505, 3273 (2021)
164. The origin of Galactic cosmic rays as revealed by their composition
     Tatischeff, V et al., MNRAS, 508, 1321 (2021)
165. Cosmic-ray antiprotons in the AMS-02 era: A sensitive probe of dark matter
     Heisig, J, MPLA, 36, 30003 (2021)
166. A decade of AMS-02
     Budrikis, Z, NatRP, 3, 308 (2021)
167. Cosmic Ray Nuclei: Results from AMS-02
     Donnini, F, PAN, 84, 956 (2021)
168. Large Scale Modulation: View from the Earth Points
     Belov, A et al., PAN, 84, 1159 (2021)
169. On the Study of Antiprotons Yield in Hadronic Collisions at NICA SPD
     Alexakhin, V et al., PPNL, 18, 196 (2021)
170. Constraints on the antistar fraction in the Solar System neighborhood from the 10-year Fermi Large Area Telescope gamma-ray source catalog
     Dupourque, S, Tibaldo, L & von Ballmoos, P, PhRvD, 103, 083016 (2021)
171. Implications of lithium to oxygen AMS-02 spectra on our understanding of cosmic-ray diffusion
     Korsmeier, M & Cuoco, A, PhRvD, 103, 103016 (2021)
172. Implications of a possible TeV break in the cosmic-ray electron and positron flux
     Ding, Y et al., PhRvD, 103, 115010 (2021)
173. Multimessenger constraints on the dark matter interpretation of the F e r m i -LAT Galactic Center excess
     Di Mauro, M & Winkler, M, PhRvD, 103, 123005 (2021)
174. Intermediate-mass and heavy Galactic cosmic-ray nuclei: The case of new AMS-02 measurements
     Schroer, B, Evoli, C & Blasi, P, PhRvD, 103, 123010 (2021)
175. Numerical modeling of cosmic rays in the heliosphere: Analysis of proton data from AMS-02 and PAMELA
     Fiandrini, E et al., PhRvD, 104, 023012 (2021)
176. New minimal, median, and maximal propagation models for dark matter searches with Galactic cosmic rays
     Genolini, Y et al., PhRvD, 104, 083005 (2021)
177. Novel interpretation of the latest AMS-02 cosmic-ray electron spectrum
     Di Mauro, M, Donato, F & Manconi, S, PhRvD, 104, 083012 (2021)
178. Diffusive origin for the cosmic-ray spectral hardening reveals signatures of a nearby source in the leptons and protons data
     Fornieri, O et al., PhRvD, 104, 103013 (2021)
179. Explaining cosmic ray antimatter with secondaries from old supernova remnants
     Mertsch, P, Vittino, A & Sarkar, S, PhRvD, 104, 103029 (2021)
180. Stochastic nature of Galactic cosmic-ray sources
     Evoli, C et al., PhRvD, 104, 123029 (2021)
181. Dark Matter Annihilation Can Produce a Detectable Antihelium Flux through Λ_¯b Decays
     Winkler, M & Linden, T, PhRvL, 126, 101101 (2021)
182. Stochastic Fluctuations of Low-Energy Cosmic Rays and the Interpretation of Voyager Data
     Phan, V et al., PhRvL, 127, 141101 (2021)
183. A common origin of muon g-2 anomaly, Galaxy Center GeV excess and AMS-02 anti-proton excess in the NMSSM
     Abdughani, M et al., SciBu, 66, 2170 (2021)
184. A Dark Matter WIMP That Can Be Detected and Definitively Identified with Currently Planned Experiments
     LaFontaine, C et al., Univ, 7, 270 (2021)
185. Galactic halo size in the light of recent AMS-02 data
     Weinrich, N et al., A&A, 639, 74 (2020)
186. Combined analysis of AMS-02 (Li,Be,B)/C, N/O, ³He, and ⁴He data
     Weinrich, N et al., A&A, 639, 131 (2020)
187. Dual MeV gamma-ray and dark matter observatory - GRAMS Project
     Aramaki, T et al., APh, 114, 107 (2020)
188. The shape of the cosmic ray proton spectrum
     Lipari, P & Vernetto, S, APh, 120, 02441 (2020)
189. Energy Reconstruction of Dark Matter Particle Explorer and Analysis of Cosmic-ray Proton Flux
     Yue, C, AcASn, 61, 59 (2020)
190. Deciphering the Local Interstellar Spectra of Secondary Nuclei with the Galprop/Helmod Framework and a Hint for Primary Lithium in Cosmic Rays
     Boschini, M et al., ApJ, 889, 167 (2020)
191. Examining the Secondary Product Origin of Cosmic-Ray Positrons with the Latest AMS-02 Data
     Huang, Z et al., ApJ, 895, 53 (2020)
192. Astrophysical Background and Dark Matter Implication Based on Latest AMS-02 Data
     Jin, H, Wu, Y & Zhou, Y, ApJ, 901, 80 (2020)
193. Evidence of Cosmic-Ray Excess from Local Giant Molecular Clouds
     Baghmanyan, V et al., ApJL, 901, L4 (2020)
194. Recurrent Galactic Cosmic-Ray Flux Modulation in L1 and Geomagnetic Activity during the Declining Phase of the Solar Cycle 24
     Grimani, C et al., ApJ, 904, 64 (2020)
195. Long- and Short-term Variability of Galactic Cosmic-Ray Radial Intensity Gradients between 1 and 9.5 au: Observations by Cassini, BESS, BESS-Polar, PAMELA, and AMS-02
     Roussos, E et al., ApJ, 904, 165 (2020)
196. Inference of the Local Interstellar Spectra of Cosmic-Ray Nuclei Z ≤ 28 with the GALPROP-HELMOD Framework
     Boschini, M et al., ApJS, 250, 27 (2020)
197. Electron and positron spectra in three-dimensional spatial-dependent propagation model
     Tian, Z et al., ChPhC, 44, 085102 (2020)
198. Observational constraints on dark matter decaying via gravity portals
     Sun, X & Dai, B, ChPhC, 44, 125103 (2020)
199. A genetic algorithm for astroparticle physics studies
     Luo, X, Feng, J & Zhang, H, CoPhC, 250, 06818 (2020)
200. Nearby source interpretation of differences among light and medium composition spectra in cosmic rays
     Yuan, Q et al., FrPhy, 16, 24501 (2020)
201. Gamma Rays Generated in Nuclear Interactions of Protons Accelerated during Solar Flares
     Vasil'ev, G & Bogomolov, E, Ge&Ae, 60, 958 (2020)
202. Some new hints on cosmic-ray propagation from AMS-02 nuclei spectra
     Niu, J & Xue, H, JCAP, 01, 036 (2020)
203. Features in cosmic-ray lepton data unveil the properties of nearby cosmic accelerators
     Fornieri, O, Gaggero, D & Grasso, D, JCAP, 02, 009 (2020)
204. Non-Abelian vector boson as FIMP dark matter
     Barman, B, Bhattacharya, S & Zakeri, M, JCAP, 02, 029 (2020)
205. Interpretation of the cosmic ray positron and electron excesses with an annihilating-decaying dark matter scenario
     Feng, L et al., JCAP, 04, 031 (2020)
206. Cosmic-ray antinuclei as messengers of new physics: status and outlook for the new decade
     von Doetinchem, P et al., JCAP, 08, 035 (2020)
207. Revisiting cosmic ray antinuclei fluxes with a new coalescence model
     Kachelriess, M, Ostapchenko, S & Tjemsland, J, JCAP, 08, 048 (2020)
208. Secondary cosmic-ray nucleus spectra disfavor particle transport in the Galaxy without reacceleration
     Yuan, Q et al., JCAP, 11, 027 (2020)
209. Updated Neutron-Monitor Yield Function: Bridging Between In Situ and Ground-Based Cosmic Ray Measurements
     Mishev, A et al., JGRA, 125, 27433 (2020)
210. Confronting dark matter co-annihilation of Inert two Higgs Doublet Model with a compressed mass spectrum
     Tsai, Y, Lu, C & Tran, V, JHEP, 06, 033 (2020)
211. Detectors for antideuteron search in cosmic rays: current status and new ideas
     Dimiccoli, F, Nozzoli, F & Zuccon, P, JInst, 15, 6033 (2020)
212. Implications of dark matter cascade decay from DAMPE, HESS, Fermi-LAT, and AMS02 data
     Gao, Y & Ma, Y, MNRAS, 491, 965 (2020)
213. High precision cosmic ray physics with AMS-02 on the International Space Station
     Battiston, R, NCimR, 43, 319 (2020)
214. The AMS-02 RICH detector: Status and physics results
     Giovacchini, F et al., NIMPA, 952, 61797 (2020)
215. Probing flavor structure of cosmic ray e^∓ spectrum and implications for dark matter indirect searches
     Ge, S et al., NuPhB, 959, 15140 (2020)
216. Multicomponent dark matter in the light of CALET and DAMPE
     Geng, C, Huang, D & Yin, L, NuPhB, 959, 15153 (2020)
217. SKA-Phase 1 sensitivity to synchrotron radio emission from multi-TeV Dark Matter candidates
     Cembranos, J et al., PDU, 27, 00448 (2020)
218. AMS-02 beryllium data and its implication for cosmic ray transport
     Evoli, C et al., PhRvD, 101, 023013 (2020)
219. Explaining the AMS positron excess via right-handed neutrinos
     Queiroz, F & Siqueira, C, PhRvD, 101, 075007 (2020)
220. Nonsecondary origin of cosmic ray positrons
     Diesing, R & Caprioli, D, PhRvD, 101, 103030 (2020)
221. Contribution of pulsars to cosmic-ray positrons in light of recent observation of inverse-Compton halos
     Manconi, S, Di Mauro, M & Donato, F, PhRvD, 102, 023015 (2020)
222. Dark matter constraints on low mass and weakly coupled B -L gauge boson
     Mohapatra, R & Okada, N, PhRvD, 102, 035028 (2020)
223. Antideuterons and antihelium nuclei from annihilating dark matter
     Cholis, I, Linden, T & Hooper, D, PhRvD, 102, 103019 (2020)
224. Signature of Energy Losses on the Cosmic Ray Electron Spectrum
     Evoli, C et al., PhRvL, 125, 051101 (2020)
225. Direct Measurement of the Cosmic-Ray Carbon and Oxygen Spectra from 10 GeV /n to 2.2 TeV /n with the Calorimetric Electron Telescope on the International Space Station
     Adriani, O et al., PhRvL, 125, 251102 (2020)
226. AMS-02 antiprotons' consistency with a secondary astrophysical origin
     Boudaud, M et al., PhRvR, 2, 023022 (2020)
227. Dark matter or correlated errors: Systematics of the AMS-02 antiproton excess
     Heisig, J, Korsmeier, M & Winkler, M, PhRvR, 2, 043017 (2020)
228. The Badhwar-O'Neill 2020 GCR Model
     Slaba, T & Whitman, K, SpWea, 18, 02456 (2020)
229. Fitting B/C cosmic-ray data in the AMS-02 era: a cookbook. Model numerical precision, data covariance matrix of errors, cross-section nuisance parameters, and mock data
     Derome, L et al., A&A, 627, 158 (2019)
230. Advances in cosmic-ray astrophysics and related areas
     Moskalenko, I & Seo, E, AdSpR, 64, 2417 (2019)
231. The HELMOD model in the works for inner and outer heliosphere: From AMS to Voyager probes observations
     Boschini, M et al., AdSpR, 64, 2459 (2019)
232. Red dwarfs as sources of cosmic rays and detection of TeV gamma-rays from these stars
     Sinitsyna, V, Sinitsyna, V & Stozhkov, Y, AdSpR, 64, 2585 (2019)
233. Numerical Modeling of Galactic Cosmic-Ray Proton and Helium Observed by AMS-02 during the Solar Maximum of Solar Cycle 24
     Corti, C et al., ApJ, 871, 253 (2019)
234. Acceleration of Cosmic Rays in Supernova Shocks: Elemental Selectivity of the Injection Mechanism
     Hanusch, A, Liseykina, T & Malkov, M, ApJ, 872, 108 (2019)
235. Bayesian Analysis of the Hardening in AMS-02 Nuclei Spectra
     Niu, J, Li, T & Xue, H, ApJ, 873, 77 (2019)
236. GeV-TeV Cosmic-Ray Leptons in the Solar System from the Bow Shock Wind Nebula of the Nearest Millisecond Pulsar J0437-4715
     Bykov, A et al., ApJL, 876, L8 (2019)
237. A Numerical Study of Cosmic Proton Modulation Using AMS-02 Observations
     Luo, X et al., ApJ, 878, 6 (2019)
238. Reanalysis of the Pulsar Scenario to Explain the Cosmic Positron Excess Considering the Recent Developments
     Fang, K, Bi, X & Yin, P, ApJ, 884, 124 (2019)
239. Overview of Direct Measurements of Cosmic Rays
     Peng, X & Yuan, Q, ChA&A, 43, 327 (2019)
240. TeV SUSY dark matter confronted with the current direct and indirect detection data
     Abdughani, M, Ren, J & Zhao, J, EPJC, 79, 146 (2019)
241. Dark matter decaying into millicharged particles as a solution to AMS-02 positron excess
     Farzan, Y & Rajaee, M, JCAP, 04, 040 (2019)
242. Prospects of detecting dark matter through cosmic-ray antihelium with the antiproton constraints
     Ding, Y et al., JCAP, 06, 004 (2019)
243. An excess of excesses examined via dark matter radio emissions from galaxies
     Beck, G, JCAP, 08, 019 (2019)
244. Validation of the Neutron Monitor Yield Function Using Data From AMS-02 Experiment, 2011-2017
     Koldobskiy, S et al., JGRA, 124, 2367 (2019)
245. Effects of re-acceleration and source grammage on secondary cosmic rays spectra
     Bresci, V et al., MNRAS, 488, 2068 (2019)
246. AMS-02 experiment: status and perspectives
     Zuccon, P, NPPP, 306, 74 (2019)
247. Measurement of the D/p ratio in Cosmic rays with the AMS-02 experiment
     Dimiccoli, F et al., NPPP, 306, 80 (2019)
248. Fitting dark matter mass with the radio continuum spectral data of the Ophiuchus cluster
     Chan, M & Lee, C, PDU, 26, 00355 (2019)
249. Search for anisotropies in the arrival directions of charged cosmic rays with AMS-02
     Zeissler, S, PhD Thesis, 52 (2019)
250. Search for cosmic-ray antideuterons with the AMS-02 experiment on the International Space Station
     Nelson, T, PhD Thesis, 56 (2019)
251. Positrons from primordial black hole microquasars and gamma-ray bursts
     Takhistov, V, PhLB, 789, 538 (2019)
252. Where do the AMS-02 antihelium events come from?
     Poulin, V et al., PhRvD, 99, 023016 (2019)
253. Robust cosmic-ray constraints on p -wave annihilating MeV dark matter
     Boudaud, M et al., PhRvD, 99, 061302 (2019)
254. Energetics of high-energy cosmic radiations
     Murase, K & Fukugita, M, PhRvD, 99, 063012 (2019)
255. Scrutinizing the evidence for dark matter in cosmic-ray antiprotons
     Cuoco, A et al., PhRvD, 99, 103014 (2019)
256. Galactic cosmic rays after the AMS-02 observations
     Evoli, C, Aloisio, R & Blasi, P, PhRvD, 99, 103023 (2019)
257. A robust excess in the cosmic-ray antiproton spectrum: Implications for annihilating dark matter
     Cholis, I, Linden, T & Hooper, D, PhRvD, 99, 103026 (2019)
258. Probing local cosmic rays using Fermi-LAT observations of a mid-latitude region in the third Galactic quadrant
     Shen, Z et al., PhRvD, 99, 123001 (2019)
259. Cosmic-ray transport from AMS-02 boron to carbon ratio data: Benchmark models and interpretation
     Genolini, Y et al., PhRvD, 99, 123028 (2019)
260. Return of the WIMP: Missing energy signals and the Galactic Center excess
     Carena, M et al., PhRvD, 100, 055002 (2019)
261. Investigating the dark matter signal in the cosmic ray antiproton flux with the machine learning method
     Lin, S, Bi, X & Yin, P, PhRvD, 100, 103014 (2019)
262. Detection of a γ -ray halo around Geminga with the Fermi-LAT data and implications for the positron flux
     Di Mauro, M, Manconi, S & Donato, F, PhRvD, 100, 123015 (2019)
263. Direct Measurement of the Cosmic-Ray Proton Spectrum from 50 GeV to 10 TeV with the Calorimetric Electron Telescope on the International Space Station
     Adriani, O et al., PhRvL, 122, 181102 (2019)
264. Time-Dependent AMS-02 Electron-Positron Fluxes in an Extended Force-Field Model
     Kuhlen, M & Mertsch, P, PhRvL, 123, 251104 (2019)
265. Implications on cosmic ray injection and propagation parameters from Voyager/ACE/AMS-02 nucleus data
     Yuan, Q, SCPMA, 62, 49511 (2019)
266. Preface: Origins of cosmic rays
     Moskalenko, I & Seo, E, AdSpR, 62, 2729 (2018)
267. Propagation of cosmic rays in heliosphere: The HELMOD model
     Boschini, M et al., AdSpR, 62, 2859 (2018)
268. HelMod in the Works: From Direct Observations to the Local Interstellar Spectrum of Cosmic-Ray Electrons
     Boschini, M et al., ApJ, 854, 94 (2018)
269. Deciphering the Local Interstellar Spectra of Primary Cosmic-Ray Species with HELMOD
     Boschini, M et al., ApJ, 858, 61 (2018)
270. Dark Matter Search in Space: Combined Analysis of Cosmic-Ray Antiproton-to-proton Flux Ratio and Positron Flux Measured by AMS-02
     Feng, J & Zhang, H, ApJ, 858, 116 (2018)
271. A Study of Electron Forbush Decreases with a 3D SDE Numerical Model
     Luo, X et al., ApJ, 860, 160 (2018)
272. Two-zone Diffusion of Electrons and Positrons from Geminga Explains the Positron Anomaly
     Fang, K et al., ApJ, 863, 30 (2018)
273. Studies on Cosmic-Ray Nuclei with Voyager, ACE, and AMS-02. I. Local Interstellar Spectra and Solar Modulation
     Zhu, C, Yuan, Q & Wei, D, ApJ, 863, 119 (2018)
274. Revisiting the Spatially Dependent Propagation Model with the Latest Observations of Cosmic-Ray Nuclei
     Liu, W, Yao, Y & Guo, Y, ApJ, 869, 176 (2018)
275. On the knee of Galactic cosmic rays in light of sub-TeV spectral hardenings
     Guo, Y & Yuan, Q, ChPhC, 42, 075103 (2018)
276. A precision search for WIMPs with charged cosmic rays
     Reinert, A & Winkler, M, JCAP, 01, 055 (2018)
277. Constraining heavy dark matter with cosmic-ray antiprotons
     Cuoco, A et al., JCAP, 04, 004 (2018)
278. Revisit of cosmic ray antiprotons from dark matter annihilation with updated constraints on the background model from AMS-02 and collider data
     Cui, M et al., JCAP, 06, 024 (2018)
279. Probing the sterile neutrino portal to Dark Matter with γ rays
     Folgado, M et al., JCAP, 08, 002 (2018)
280. Consistency test of the AMS-02 antiproton excess with direct detection data based on the effective field theory approach
     Cui, M et al., JCAP, 11, 039 (2018)
281. Stochastic cosmic ray sources and the TeV break in the all-electron spectrum
     Mertsch, P, JCAP, 11, 045 (2018)
282. Strongly self-interacting vector dark matter via freeze-in
     Duch, M, Grzadkowski, B & Huang, D, JHEP, 01, 020 (2018)
283. Dark matter "transporting" mechanism explaining positron excesses
     Kim, D, Park, J & Shin, S, JHEP, 04, 093 (2018)
284. Discriminating local sources of high-energy cosmic electrons and positrons by current and future anisotropy measurements
     Fang, K, Bi, X & Yin, P, MNRAS, 478, 5660 (2018)
285. What causes the ionization rates observed in diffuse molecular clouds? The role of cosmic ray protons and electrons
     Phan, V, Morlino, G & Gabici, S, MNRAS, 480, 5167 (2018)
286. Contribution of Supernova Remnants to CRs Secondary to Primary ratios
     Ksenofontov, L & Berezhko, E, NPPP, 297, 15 (2018)
287. Evolved Pulsar Wind Nebulae as Sources of (Mostly Leptonic) Cosmic Rays
     Gallant, Y, NPPP, 297, 106 (2018)
288. Propagating Cosmic Rays with exact Solution of Fokker-Planck Equation
     Malkov, M, NPPP, 297, 152 (2018)
289. Cosmic Ray Direct Measurements
     Picozza, P, Spillantini, P & Marcelli, L, NPPP, 297, 207 (2018)
290. Strange behavior of protons in the large hadron collider and cosmic detectors PAMELA and AMS-02
     Konstantinov, S, PAIJ, 2, 279 (2018)
291. Measurement of helium isotopic composition in cosmic rays with AMS-02
     Behlmann, M, PhD Thesis, 207 (2018)
292. Current status and desired precision of the isotopic production cross sections relevant to astrophysics of cosmic rays: Li, Be, B, C, and N
     Genolini, Y et al., PhRvC, 98, 034611 (2018)
293. Galactic cosmic-ray model in the light of AMS-02 nuclei data
     Niu, J & Li, T, PhRvD, 97, 023015 (2018)
294. Explaining the DAMPE e⁺e^- excess using the Higgs triplet model with a vector dark matter
     Chen, C, Chiang, C & Nomura, T, PhRvD, 97, 061302 (2018)
295. Top-philic dark matter within and beyond the WIMP paradigm
     Garny, M et al., PhRvD, 97, 075002 (2018)
296. Bayesian analysis of the break in DAMPE lepton spectra
     Niu, J et al., PhRvD, 97, 083012 (2018)
297. Indirect detection of neutrino portal dark matter
     Batell, B, Han, T & Shams Es Haghi, B, PhRvD, 97, 095020 (2018)
298. Prospects to verify a possible dark matter hint in cosmic antiprotons with antideuterons and antihelium
     Korsmeier, M, Donato, F & Fornengo, N, PhRvD, 97, 103011 (2018)
299. Production cross sections of cosmic antiprotons in the light of new data from the NA61 and LHCb experiments
     Korsmeier, M, Donato, F & Di Mauro, M, PhRvD, 97, 103019 (2018)
300. Supersymmetric resonant dark matter: A thermal model for the AMS-02 positron excess
     Bai, Y, Berger, J & Lu, S, PhRvD, 97, 115012 (2018)
301. Features in the spectrum of cosmic-ray positrons from pulsars
     Cholis, I, Karwal, T & Kamionkowski, M, PhRvD, 97, 123011 (2018)
302. Type II seesaw mechanism with scalar dark matter in light of AMS-02, DAMPE, and Fermi-LAT data
     Li, T, Okada, N & Shafi, Q, PhRvD, 98, 055002 (2018)
303. Studying the Milky Way pulsar population with cosmic-ray leptons
     Cholis, I, Karwal, T & Kamionkowski, M, PhRvD, 98, 063008 (2018)
304. Constraints on the box-shaped cosmic ray electron feature from dark matter annihilation with the AMS-02 and DAMPE data
     Zu, L et al., PhRvD, 98, 063010 (2018)
305. Self-generated cosmic-ray confinement in TeV halos: Implications for TeV γ -ray emission and the positron excess
     Evoli, C, Linden, T & Morlino, G, PhRvD, 98, 063017 (2018)
306. e⁺ and p \xAF production in p p collisions and the cosmic-ray e⁺/p \xAF ratio
     Blum, K, Sato, R & Takimoto, M, PhRvD, 98, 063022 (2018)
307. Cosmic-Ray Lithium Production at the Nova Eruptions Followed by a Type Ia Supernova
     Kawanaka, N & Yanagita, S, PhRvL, 120, 041103 (2018)
308. Extended Measurement of the Cosmic-Ray Electron and Positron Spectrum from 11 GeV to 4.8 TeV with the Calorimetric Electron Telescope on the International Space Station
     Adriani, O et al., PhRvL, 120, 261102 (2018)
309. Explanations of the DAMPE high energy electron/positron spectrum in the dark matter annihilation and pulsar scenarios
     Wang, B et al., SCPMA, 61, 01004 (2018)
310. The pinching method for Galactic cosmic ray positrons: Implications in the light of precision measurements
     Boudaud, M et al., A&A, 605, 17 (2017)
311. Cosmic-ray spectrum in the local Galaxy
     Neronov, A, Malyshev, D & Semikoz, D, A&A, 606, 22 (2017)
312. Pulsar Wind Nebulae as a Source of Cosmic-Ray Electrons and Positrons
     Kashiyama, K, ASSL, 446, 279 (2017)
313. The Local Bubble in the interstellar medium and the origin of the low energy cosmic rays
     Erlykin, A, Machavariani, S & Wolfendale, A, AdSpR, 59, 748 (2017)
314. Preface: Solar energetic particles, solar modulation and space radiation: New opportunities in the AMS-02 Era
     Bindi, V, AdSpR, 60, 753 (2017)
315. Overview of galactic cosmic ray solar modulation in the AMS-02 era
     Bindi, V et al., AdSpR, 60, 865 (2017)
316. Anomalous Galactic Cosmic Rays in the Framework of AMS-02
     Khiali, B, Haino, S & Feng, J, ApJ, 835, 229 (2017)
317. The Curious Case of High-energy Deuterons in Galactic Cosmic Rays
     Tomassetti, N & Feng, J, ApJL, 835, L26 (2017)
318. Perspective on the Cosmic-ray Electron Spectrum above TeV
     Fang, K et al., ApJ, 836, 172 (2017)
319. Energy Spectra of Abundant Cosmic-ray Nuclei in Sources, According to the ATIC Experiment
     Panov, A, Sokolskaya, N & Zatsepin, V, ApJ, 837, 77 (2017)
320. Constraints on Leptophilic Dark Matter from the AMS-02 Experiment
     Cavasonza, L et al., ApJ, 839, 36 (2017)
321. Solution of Heliospheric Propagation: Unveiling the Local Interstellar Spectra of Cosmic-ray Species
     Boschini, M et al., ApJ, 840, 115 (2017)
322. Theoretical Interpretation of Pass 8 Fermi-LAT e ⁺ + e ^- Data
     Di Mauro, M et al., ApJ, 845, 107 (2017)
323. Constraints on dark matter annihilation and decay from the isotropic gamma-ray background
     Liu, W et al., ChPhC, 41, 045104 (2017)
324. LIKEDM: Likelihood calculator of dark matter detection
     Huang, X, Tsai, Y & Yuan, Q, CoPhC, 213, 252 (2017)
325. A conservative assessment of the current constraints on dark matter annihilation from cosmic rays and CMB observations
     Masi, N & Ballardini, M, IJMPD, 26, 50041 (2017)
326. The electron plus positron spectrum from annihilation of Kaluza-Klein dark matter in the Galaxy
     Tsuchida, S & Mori, M, IJMPD, 26, 50095 (2017)
327. Dipole anisotropy in cosmic electrons and positrons: inspection on local sources
     Manconi, S, Di Mauro, M & Donato, F, JCAP, 01, 006 (2017)
328. Fermi-LAT kills dark matter interpretations of AMS-02 data. Or not?
     Belotsky, K et al., JCAP, 01, 021 (2017)
329. Antideuterons in cosmic rays: sources and discovery potential
     Herms, J et al., JCAP, 02, 018 (2017)
330. Cosmic ray antiprotons at high energies
     Winkler, M, JCAP, 02, 048 (2017)
331. AMS-02 positron excess and indirect detection of three-body decaying dark matter
     Cheng, H et al., JCAP, 03, 041 (2017)
332. Dark Matter's secret liaisons: phenomenology of a dark U(1) sector with bound states
     Cirelli, M et al., JCAP, 05, 036 (2017)
333. Decaying fermionic dark matter search with CALET
     Bhattacharyya, S et al., JCAP, 08, 012 (2017)
334. Late decaying 2-component dark matter scenario as an explanation of the AMS-02 positron excess
     Buch, J, Ralegankar, P & Rentala, V, JCAP, 10, 028 (2017)
335. Probing dark matter annihilation in the Galaxy with antiprotons and gamma rays
     Cuoco, A et al., JCAP, 10, 053 (2017)
336. The new local interstellar spectra and their influence on the production rates of the cosmogenic radionuclides ¹⁰Be and ¹⁴C
     Herbst, K, Muscheler, R & Heber, B, JGRA, 122, 23 (2017)
337. Robustness of dark matter constraints and interplay with collider searches for New Physics
     Arbey, A et al., JHEP, 11, 132 (2017)
338. Monte Carlo simulations of the transition radiation detector of the AMS-02 experiment
     Raiha, T et al., NIMPA, 868, 10 (2017)
339. A dark matter model that reconciles tensions between the cosmic-ray e^± excess and the gamma-ray and CMB constraints
     Xiang, Q et al., PhLB, 773, 448 (2017)
340. Antiprotons from dark matter annihilation through light mediators and a possible excess in AMS-02 p¯/p data
     Huang, X et al., PhRvD, 95, 063021 (2017)
341. Dark photons from captured inelastic dark matter annihilation: Charged particle signatures
     Smolinsky, J & Tanedo, P, PhRvD, 95, 075015 (2017)
342. Propagation of cosmic rays in the AMS-02 era
     Yuan, Q et al., PhRvD, 95, 083007 (2017)
343. Hidden sector explanation of B -decay and cosmic-ray anomalies
     Cline, J et al., PhRvD, 95, 095015 (2017)
344. Supersymmetry with dark matter is still natural
     van Beekveld, M et al., PhRvD, 96, 035015 (2017)
345. Prescriptions on antiproton cross section data for precise theoretical antiproton flux predictions
     Donato, F, Korsmeier, M & Di Mauro, M, PhRvD, 96, 043007 (2017)
346. Constraining annihilating dark matter by radio data of M33
     Chan, M, PhRvD, 96, 043009 (2017)
347. Interpretation of the gamma-ray excess and AMS-02 antiprotons: Velocity dependent dark matter annihilations
     Jia, L, PhRvD, 96, 055009 (2017)
348. HAWC observations strongly favor pulsar interpretations of the cosmic-ray positron excess
     Hooper, D et al., PhRvD, 96, 103013 (2017)
349. Cosmic rays, antihelium, and an old navy spotlight
     Blum, K et al., PhRvD, 96, 103021 (2017)
350. Systematic study on the cosmic ray antiproton flux
     Lin, S et al., PhRvD, 96, 123010 (2017)
351. Possible Dark Matter Annihilation Signal in the AMS-02 Antiproton Data
     Cui, M et al., PhRvL, 118, 191101 (2017)
352. Novel Dark Matter Constraints from Antiprotons in Light of AMS-02
     Cuoco, A, Kramer, M & Korsmeier, M, PhRvL, 118, 191102 (2017)
353. γ -ray Constraints on Decaying Dark Matter and Implications for IceCube
     Cohen, T et al., PhRvL, 119, 021102 (2017)
354. Novel Cosmic-Ray Electron and Positron Constraints on MeV Dark Matter Particles
     Boudaud, M, Lavalle, J & Salati, P, PhRvL, 119, 021103 (2017)
355. Non-parametric determination of H and He interstellar fluxes from cosmic-ray data
     Ghelfi, A et al., A&A, 591, 94 (2016)
356. Partition function and thermodynamic parameters of the all-particle cosmic-ray flux
     Tomaschitz, R, APh, 84, 36 (2016)
357. Spatial-dependent Propagation of Cosmic Rays Results in the Spectrum of Proton, Ratios of P/P, and B/C, and Anisotropy of Nuclei
     Guo, Y, Tian, Z & Jin, C, ApJ, 819, 54 (2016)
358. Measurements of Cosmic-Ray Proton and Helium Spectra from the BESS-Polar Long-duration Balloon Flights over Antarctica
     Abe, K et al., ApJ, 822, 65 (2016)
359. Solar Modulation of the Local Interstellar Spectrum with Voyager 1, AMS-02, PAMELA, and BESS
     Corti, C et al., ApJ, 829, 8 (2016)
360. Spatial dependent diffusion of cosmic rays and the excess of primary electrons derived from high precision measurements by AMS-02
     Jin, C, Guo, Y & Hu, H, ChPhC, 40, 015101 (2016)
361. On the contribution of a hard galactic plane component to the excesses of secondary particles
     Guo, Y, Hu, H & Tian, Z, ChPhC, 40, 115001 (2016)
362. SOLARPROP: Charge-sign dependent solar modulation for everyone
     Kappl, R, CoPhC, 207, 386 (2016)
363. Pulsar interpretation of lepton spectra measured by AMS-02
     Feng, J & Zhang, H, EPJC, 76, 229 (2016)
364. Fermi/LAT observations of dwarf galaxies highly constrain a dark matter interpretation of excess positrons seen in AMS-02, HEAT, and PAMELA
     Lopez, A et al., JCAP, 03, 033 (2016)
365. Dark matter vs. astrophysics in the interpretation of AMS-02 electron and positron data
     Di Mauro, M et al., JCAP, 05, 031 (2016)
366. Model-independent indirect detection constraints on hidden sector dark matter
     Elor, G et al., JCAP, 06, 024 (2016)
367. Constraining particle dark matter using local galaxy distribution
     Ando, S & Ishiwata, K, JCAP, 06, 045 (2016)
368. Di-photon excess at LHC and the gamma ray excess at the Galactic Centre
     Hektor, A & Marzola, L, JCAP, 07, 042 (2016)
369. Explaining AMS-02 positron excess and muon anomalous magnetic moment in dark left-right gauge model
     Basak, T, Mohanty, S & Tomar, G, JHEP, 03, 062 (2016)
370. AMS-02 measurement of cosmic ray positrons and electrons
     Weng, Z, Vagelli, V & AMS Collaboration, NPPP, 273, 466 (2016)
371. Inert Higgs Doublet Dark Matter in Type-II Seesaw
     Chen, C & Nomura, T, NPPP, 273, 2348 (2016)
372. Electron/proton separation and analysis techniques used in the AMS-02 (e⁺ + e^-) flux measurement
     Graziani, M & AMS-02 Collaboration, NPPP, 273, 2351 (2016)
373. The (e⁺ + e^-) flux measurement up to 1 TeV with the AMS-02 experiment
     Vagelli, V, Weng, Z & AMS-02 Collaboration, NPPP, 273, 2369 (2016)
374. Confronting recent AMS-02 positron fraction and Fermi-LAT extragalactic γ-ray background measurements with gravitino dark matter
     Carquin, E et al., PDU, 11, 1 (2016)
375. Can we explain AMS-02 antiproton and positron excesses simultaneously by nearby supernovae without pulsars or dark matter?
     Kohri, K et al., PTEP, 2016, 021E01 (2016)
376. Measurement of the cosmic-ray proton spectrum from 54 GeV to 9.5 TeV with the Fermi Large Area Telescope
     Green, D, PhD Thesis, 131 (2016)
377. Precision measurement of electron and positron flux in cosmic rays with the AMS-02 Detector
     Chen, H, PhD Thesis, 353 (2016)
378. Review of the theoretical and experimental status of dark matter identification with cosmic-ray antideuterons
     Aramaki, T et al., PhR, 618, 1 (2016)
379. Dark matter with multiannihilation channels and the AMS-02 positron excess and antiproton data
     Chen, Y, Cheung, K & Tseng, P, PhRvD, 93, 015015 (2016)
380. Secluded singlet fermionic dark matter driven by the Fermi gamma-ray excess
     Kim, Y et al., PhRvD, 93, 075023 (2016)
381. Cosmic-ray hardenings in light of AMS-02 data
     Ohira, Y, Kawanaka, N & Ioka, K, PhRvD, 93, 083001 (2016)
382. Leptophilic dark matter in Galactic Center excess
     Lu, B & Zong, H, PhRvD, 93, 083504 (2016)
383. Constraint on the velocity dependent dark matter annihilation cross section from Fermi-LAT observations of dwarf galaxies
     Zhao, Y et al., PhRvD, 93, 083513 (2016)
384. New limits on the dark matter lifetime from dwarf spheroidal galaxies using Fermi-LAT
     Baring, M et al., PhRvD, 93, 103009 (2016)
385. Limits on dark matter from AMS-02 antiproton and positron fraction data
     Lu, B & Zong, H, PhRvD, 93, 103517 (2016)
386. Gamma rays from muons from WIMPs: Implementation of radiative muon decays for dark matter analyses
     Scaffidi, A et al., PhRvD, 93, 115024 (2016)
387. Positive charge prevalence in cosmic rays: Room for dark matter in the positron spectrum
     Malkov, M, Diamond, P & Sagdeev, R, PhRvD, 94, 063006 (2016)
388. Bayesian analysis of spatial-dependent cosmic-ray propagation: Astrophysical background of antiprotons and positrons
     Feng, J, Tomassetti, N & Oliva, A, PhRvD, 94, 123007 (2016)
389. Galactic cosmic-ray propagation in the light of AMS-02: Analysis of protons, helium, and antiprotons
     Korsmeier, M & Cuoco, A, PhRvD, 94, 123019 (2016)
390. Time Dependence of the Electron and Positron Components of the Cosmic Radiation Measured by the PAMELA Experiment between July 2006 and December 2015
     Adriani, O et al., PhRvL, 116, 241105 (2016)
391. A new look at the cosmic ray positron fraction
     Boudaud, M et al., A&A, 575, 67 (2015)
392. Theoretical uncertainties in extracting cosmic-ray diffusion parameters: the boron-to-carbon ratio
     Genolini, Y et al., A&A, 580, 9 (2015)
393. Nonlinear cosmic ray Galactic transport in the light of AMS-02 and Voyager data
     Aloisio, R, Blasi, P & Serpico, P, A&A, 583, 95 (2015)
394. Implications of the AMS-02 positron fraction in cosmic rays
     Yuan, Q et al., APh, 60, 1 (2015)
395. Cross-calibration of the transition radiation detector of AMS-02 for an energy measurement of cosmic-ray ions
     Obermeier, A & Korsmeier, M, AdSpR, 55, 716 (2015)
396. The contribution of millisecond pulsars to the Galactic cosmic-ray lepton spectrum
     Venter, C et al., AdSpR, 55, 1529 (2015)
397. Circular Polarization of Pulsar Wind Nebulae and the Cosmic-Ray Positron Excess
     Linden, T, ApJ, 799, 200 (2015)
398. Imprint of a 2 Million Year Old Source on the Cosmic-Ray Anisotropy
     Savchenko, V, Kachelriess, M & Semikoz, D, ApJL, 809, L23 (2015)
399. Spectra of Cosmic Ray Electrons and Diffuse Gamma Rays with the Constraints of AMS-02 and HESS Data
     Chen, D, Huang, J & Jin, H, ApJ, 811, 154 (2015)
400. New Modeling of Galactic Proton Modulation during the Minimum of Solar Cycle 23/24
     Vos, E & Potgieter, M, ApJ, 815, 119 (2015)
401. Multi-component dark matter
     Geng, C, Huang, D & Lai, C, IJMPA, 30, 45009 (2015)
402. High-energy positrons and gamma radiation from decaying constituents of a two-component dark atom model
     Belotsky, K et al., IJMPD, 24, 45004 (2015)
403. Systematic study of the uncertainties in fitting the cosmic positron data by AMS-02
     Yuan, Q & Bi, X, JCAP, 03, 033 (2015)
404. A fussy revisitation of antiprotons as a tool for Dark Matter searches
     Boudaud, M et al., JCAP, 05, 013 (2015)
405. Cosmic rays: the spectrum and chemical composition from 10¹⁰ to 10²⁰ eV
     Peixoto, C, de Souza, V & Biermann, P, JCAP, 07, 042 (2015)
406. Cosmic rays: the spectrum and chemical composition from 10¹⁰ to 10²⁰ eV
     Todero Peixoto, C, de Souza, V & Biermann, P, JCAP, 07, 042 (2015)
407. AMS-02 antiprotons, at last! Secondary astrophysical component and immediate implications for Dark Matter
     Giesen, G et al., JCAP, 09, 023 (2015)
408. Cosmic ray propagation and dark matter in light of the latest AMS-02 data
     Jin, H, Wu, Y & Zhou, Y, JCAP, 09, 049 (2015)
409. AMS-02 antiprotons reloaded
     Kappl, R, Reinert, A & Winkler, M, JCAP, 10, 034 (2015)
410. CALET's sensitivity to Dark Matter annihilation in the galactic halo
     Motz, H et al., JCAP, 12, 047 (2015)
411. Pulsar Wind Nebulae as a source of the observed electron and positron excess at high energy: The case of Vela-X
     Della Torre, S et al., JHEAp, 8, 27 (2015)
412. Signals of a light dark force in the galactic center
     Liu, J, Weiner, N & Xue, W, JHEP, 08, 050 (2015)
413. Monochromatic gamma rays from dark matter annihilation to leptons
     Coogan, A, Profumo, S & Shepherd, W, JHEP, 08, 074 (2015)
414. Cosmic ray antiprotons and the single source model
     Erlykin, A & Wolfendale, A, JPhG, 42, 115202 (2015)
415. Multi-component dark matter in the light of new AMS-02 data
     Lai, C, Huang, D & Geng, C, MPLA, 30, 50188 (2015)
416. AMS-02 in space: physics results, overview, and challenges
     Tomassetti, N & AMS Collaboration, NPPP, 265, 245 (2015)
417. Astrophysical interpretation of the ASM-02 leptonic data
     Fornengo, N, NPPP, 265, 248 (2015)
418. Cosmic-ray positron fraction measurement with the AMS-02 detector
     Cernuda Cangas, I, PhD Thesis, 394 (2015)
419. Measurement of the cosmic rays boron-to-carbon ratio with AMS-02
     Clavero Jimenez, R, PhD Thesis, 395 (2015)
420. Precision measurement of the boron to carbon ratio in cosmic rays with AMS-02
     Sun, W, PhD Thesis, 624 (2015)
421. AMS02 positron excess from decaying fermion DM with local dark gauge symmetry
     Ko, P & Tang, Y, PhLB, 741, 284 (2015)
422. Dark matter for excess of AMS-02 positrons and antiprotons
     Chen, C, Chiang, C & Nomura, T, PhLB, 747, 495 (2015)
423. AMS-02 antiprotons from annihilating or decaying dark matter
     Hamaguchi, K, Moroi, T & Nakayama, K, PhLB, 747, 523 (2015)
424. 'Excess' of primary cosmic ray electrons
     Li, X et al., PhLB, 749, 267 (2015)
425. Quantitative study of the AMS-02 electron/positron spectra: Implications for pulsars and dark matter properties
     Lin, S, Yuan, Q & Bi, X, PhRvD, 91, 063508 (2015)
426. Revisiting multicomponent dark matter with new AMS-02 data
     Geng, C, Huang, D & Lai, C, PhRvD, 91, 095006 (2015)
427. Wino dark matter in light of the AMS-02 2015 data
     Ibe, M et al., PhRvD, 91, 111701 (2015)
428. Multimediator models for the Galactic Center gamma ray excess
     Cline, J et al., PhRvD, 91, 115010 (2015)
429. Upper limits on dark matter annihilation cross sections from the first AMS-02 antiproton data
     Jin, H, Wu, Y & Zhou, Y, PhRvD, 92, 055027 (2015)
430. Indirect constraints on the dark matter interpretation of excess positrons seen by AMS-02
     Chan, M, PhRvD, 92, 083504 (2015)
431. Constraints on dark matter from AMS-02 electron data
     Lu, B & Zong, H, PhRvD, 92, 103002 (2015)
432. Gravitino dark matter and low-scale baryogenesis
     Arcadi, G, Covi, L & Nardecchia, M, PhRvD, 92, 115006 (2015)
433. Electron cosmic ray measurements in space
     Picozza, P & Marcelli, L, APh, 53, 160 (2014)
434. Potential for precision measurement of low-energy antiprotons with GAPS for dark matter and primordial black hole physics
     Aramaki, T et al., APh, 59, 12 (2014)
435. Predicted CALET measurements of electron and positron spectra from 3 to 20 GeV using the geomagnetic field
     Rauch, B, AdSpR, 53, 1438 (2014)
436. The Effect of Drift on the Evolution of the Electron/Positron Spectra in an Axisymmetric Pulsar Wind Nebula
     Vorster, M & Moraal, H, ApJ, 788, 132 (2014)
437. What Could We Learn from a Sharply Falling Positron Fraction?
     Delahaye, T, Kotera, K & Silk, J, ApJ, 794, 168 (2014)
438. New interpretation of the recent result of AMS-02 and multi-component decaying dark matters with non-Abelian discrete flavor symmetry
     Kajiyama, Y, Okada, H & Toma, T, EPJC, 74, 2722 (2014)
439. Constraints on particle dark matter from cosmic-ray antiprotons
     Fornengo, N, Maccione, L & Vittino, A, JCAP, 04, 003 (2014)
440. Interpretation of AMS-02 electrons and positrons data
     Di Mauro, M et al., JCAP, 04, 006 (2014)
441. An updated analysis of Inert Higgs Doublet Model in light of the recent results from LUX, PLANCK, AMS-02 and LHC
     Arhrib, A et al., JCAP, 06, 030 (2014)
442. Indirect and direct signatures of Higgs portal decaying vector dark matter for positron excess in cosmic rays
     Baek, S et al., JCAP, 06, 046 (2014)
443. The cosmic ray antiproton background for AMS-02
     Kappl, R & Winkler, M, JCAP, 09, 051 (2014)
444. Can AMS-02 discriminate the origin of an anti-proton signal?
     Pettorino, V et al., JCAP, 10, 078 (2014)
445. Indirect detection signatures for the origin of asymmetric dark matter
     Zhao, Y & Zurek, K, JHEP, 07, 017 (2014)
446. Inert dark matter in type-II seesaw
     Chen, C & Nomura, T, JHEP, 09, 120 (2014)
447. Cosmic ray excesses from multi-component dark matter decays
     Geng, C, Huang, D & Tsai, L, MPLA, 29, 40003 (2014)
448. Bounds on dark matter interpretation of Fermi-LAT GeV excess
     Kong, K & Park, J, NuPhB, 888, 154 (2014)
449. Precision measurements of e⁺e^- in Cosmic Ray with the Alpha Magnetic Spectrometer on the ISS
     Battiston, R & AMS Collaboration, PDU, 4, 6 (2014)
450. The Grenoble Analysis Toolkit (GreAT)-A statistical analysis framework
     Putze, A & Derome, L, PDU, 5, 29 (2014)
451. Measurement of the cosmic (e+ + e-) flux from 0.5 GeV to 1 TeV with the Alpha Magnetic Spectrometer (AMS-02) on the International Space Station
     Vagelli, V, PhD Thesis, 110 (2014)
452. AMS-02 positron excess: New bounds on dark matter models and hint for primary electron spectrum hardening
     Feng, L et al., PhLB, 728, 250 (2014)
453. AMS-02 and next-to-minimal universal extra dimensions
     Gao, Y, Kong, K & Marfatia, D, PhLB, 732, 269 (2014)
454. Leptophilic dark matter in gauged L_μ-L_τ extension of MSSM
     Das, M & Mohanty, S, PhRvD, 89, 025004 (2014)
455. Decaying WIMP dark matter for AMS-02 cosmic positron excess
     Choi, K, Kyae, B & Shin, C, PhRvD, 89, 055002 (2014)
456. Imprint of multicomponent dark matter on AMS-02
     Geng, C, Huang, D & Tsai, L, PhRvD, 89, 055021 (2014)
457. Dark matter annihilations and decays after the AMS-02 positron measurements
     Ibarra, A, Lamperstorfer, A & Silk, J, PhRvD, 89, 063539 (2014)
458. Antihelium from dark matter
     Carlson, E et al., PhRvD, 89, 076005 (2014)
459. PAMELA and AMS-02 e⁺ and e^- spectra are reproduced by three-dimensional cosmic-ray modeling
     Gaggero, D et al., PhRvD, 89, 083007 (2014)
460. Triplet dark matter from leptogenesis
     Heo, J & Kim, C, PhRvD, 89, 087704 (2014)
461. Neutrino mass and dark matter in light of recent AMS-02 results
     Dev, P et al., PhRvD, 89, 095001 (2014)
462. Antideuteron limits on decaying dark matter with a tuned formation model
     Dal, L & Raklev, A, PhRvD, 89, 103504 (2014)
463. Current dark matter annihilation constraints from CMB and low-redshift data
     Madhavacheril, M, Sehgal, N & Slatyer, T, PhRvD, 89, 103508 (2014)
464. AMS-02 data confront acceleration of cosmic ray secondaries in nearby sources
     Mertsch, P & Sarkar, S, PhRvD, 90, 061301 (2014)
465. Direct constraints on diffusion models from cosmic-ray positron data: Excluding the minimal model for dark matter searches
     Lavalle, J, Maurin, D & Putze, A, PhRvD, 90, 081301 (2014)
466. Updated cosmic-ray and radio constraints on light dark matter: Implications for the GeV gamma-ray excess at the Galactic Center
     Bringmann, T, Vollmann, M & Weniger, C, PhRvD, 90, 123001 (2014)
467. Cosmic ray positrons from a local, middle-aged supernova remnant
     Erlykin, A & Wolfendale, A, APh, 49, 23 (2013)
468. Structures in the cosmic ray energy spectra
     Erlykin, A & Wolfendale, A, APh, 50, 47 (2013)
469. Probing the Pulsar Origin of the Anomalous Positron Fraction with AMS-02 and Atmospheric Cherenkov Telescopes
     Linden, T & Profumo, S, ApJ, 772, 18 (2013)
470. Prospects of antideuteron detection from dark matter annihilations or decays at AMS-02 and GAPS
     Ibarra, A & Wild, S, JCAP, 02, 021 (2013)
471. Antiprotons from Dark Matter: current constraints and future sensitivities
     Cirelli, M & Giesen, G, JCAP, 04, 015 (2013)
472. Interpretation of AMS-02 results: correlations among dark matter signals
     De Simone, A, Riotto, A & Xue, W, JCAP, 05, 003 (2013)
473. Dark matter searches with cosmic antideuterons: status and perspectives
     Fornengo, N, Maccione, L & Vittino, A, JCAP, 09, 031 (2013)
474. Decaying asymmetric dark matter relaxes the AMS-Fermi tension
     Feng, L & Kang, Z, JCAP, 10, 008 (2013)
475. Implications of the first AMS-02 measurement for dark matter annihilation and decay
     Jin, H, Wu, Y & Zhou, Y, JCAP, 11, 026 (2013)
476. Model independent interpretation of recent CR lepton data after AMS-02
     Gaggero, D & Maccione, L, JCAP, 12, 011 (2013)
477. Measurement of the positron fraction in cosmic rays from 0.5-350 GeV with the AMS-02 detector on the International Space Station
     Heil, M, PhD Thesis, 424 (2013)
478. Prestaciones del detector AMS-02 para el estudio del canal de positrones de los rayos cósmicos
     Crespo Roces, D, PhD Thesis, 499 (2013)
479. PAMELA/Fermi-LAT electron cosmic ray spectrum at ∼100 GeV: Implication for dark matter annihilation signal in accordance with the 130 GeV γ-ray line
     Feng, L et al., PhLB, 720, 1 (2013)
480. Reconcile the AMS-02 positron fraction and Fermi-LAT/HESS total e^± spectra by the primary electron spectrum hardening
     Yuan, Q & Bi, X, PhLB, 727, 1 (2013)
481. Dipole-interacting fermionic dark matter in positron, antiproton, and gamma-ray channels
     Heo, J & Kim, C, PhRvD, 87, 013007 (2013)
482. Hints of a charge asymmetry in the electron and positron cosmic-ray excesses
     Masina, I & Sannino, F, PhRvD, 87, 123003 (2013)
483. Pulsar interpretation for the AMS-02 result
     Yin, P et al., PhRvD, 88, 023001 (2013)
484. Dark matter and collider signatures of the MSSM
     Fowlie, A et al., PhRvD, 88, 055012 (2013)
485. Constraints on dark matter annihilation from AMS-02 results
     Kopp, J, PhRvD, 88, 076013 (2013)
486. Sommerfeld enhancements with vector, scalar, and pseudoscalar force carriers
     Liu, Z, Wu, Y & Zhou, Y, PhRvD, 88, 096008 (2013)
487. Constraining the cogenesis of visible and dark matter with AMS-02 and Xenon-100
     Kohri, K & Sahu, N, PhRvD, 88, 103001 (2013)
488. Dynamical Dark Matter and the positron excess in light of AMS results
     Dienes, K, Kumar, J & Thomas, B, PhRvD, 88, 103509 (2013)
489. Three-Dimensional Model of Cosmic-Ray Lepton Propagation Reproduces Data from the Alpha Magnetic Spectrometer on the International Space Station
     Gaggero, D et al., PhRvL, 111, 021102 (2013)
490. AMS-02 Results Support the Secondary Origin of Cosmic Ray Positrons
     Blum, K, Katz, B & Waxman, E, PhRvL, 111, 211101 (2013)
491. Secondary cosmic-ray nuclei from supernova remnants and constraints on the propagation parameters
     Tomassetti, N & Donato, F, A&A, 544, 16 (2012)
492. Effects of solar modulation on the cosmic ray positron fraction
     Della Torre, S et al., AdSpR, 49, 1587 (2012)
493. Propagation of H and He cosmic ray isotopes in the Galaxy: astrophysical and nuclear uncertainties
     Tomassetti, N, Ap&SS, 342, 131 (2012)
494. The Alpha Magnetic Spectrometer on the International Space Station
     Kounine, A, IJMPE, 21, 30005 (2012)
495. Escape of cosmic-ray electrons from supernova remnants
     Ohira, Y et al., MNRAS, 427, 91 (2012)
496. Cosmic-ray antiproton constraints on light singlino-like dark matter candidates
     Cerdeno, D, Delahaye, T & Lavalle, J, NuPhB, 854, 738 (2012)
497. "Caracterizacón de dos detectores de muy alta energía: Estudio del ruido dentro de los telescopios "MAGIC" y fragmentación de los núcleos en el experimento AMS-02"
     Diago Ortega, A, PhD Thesis, 313 (2012)
498. Antiprotons from dark matter annihilation in the Galaxy: Astrophysical uncertainties
     Evoli, C et al., PhRvD, 85, 123511 (2012)
499. Antiproton modulation in the Heliosphere and AMS-02 antiproton over proton ratio prediction
     Bobik, P et al., ASTRA, 7, 245 (2011)
500. Cosmic ray propagation time scales: lessons from radioactive nuclei and positron data
     Blum, K, JCAP, 11, 037 (2011)
501. The AMS-02 experiment status
     Oliva, A & AMS Collaboration, NCimC, 34, 0389 (2011)
502. The performance of the AMS-02 silicon tracker evaluated during the pre-integration phase of the spectrometer
     Haino, S & AMS-02 Tracker Collaboration, NIMPA, 630, 78 (2011)
503. White dwarf pulsars as possible cosmic ray electron-positron factories
     Kashiyama, K, Ioka, K & Kawanaka, N, PhRvD, 83, 023002 (2011)
504. Charge asymmetric cosmic ray signals from dark matter decay
     Chang, S & Goodenough, L, PhRvD, 84, 023524 (2011)
505. Results of 2007 test beam of AMS-02 Electromagnetic Calorimeter
     di Falco, S, AdSpR, 45, 112 (2010)
506. Dark matter detection in the BMSSM
     Bernal, N & Goudelis, A, JCAP, 03, 007 (2010)
507. Pinpointing cosmic ray propagation with the AMS-02 experiment
     Pato, M, Hooper, D & Simet, M, JCAP, 06, 022 (2010)
508. Discriminating the source of high-energy positrons with AMS-02
     Pato, M, Lattanzi, M & Bertone, G, JCAP, 12, 020 (2010)
509. General analysis of antideuteron searches for dark matter
     Cui, Y, Mason, J & Randall, L, JHEP, 11, 017 (2010)
510. Implications of an astrophysical interpretation of PAMELA and Fermi-LAT data for future searches of a positron signal from dark matter annihilations
     Choi, K & Yaguna, C, PhRvD, 81, 023502 (2010)
511. Cosmic e^±s, p¯s, γs, and neutrinos in leptocentric dark matter models
     Bi, X et al., PhRvD, 81, 063522 (2010)
512. Galactic secondary positron flux at the Earth
     Delahaye, T et al., A&A, 501, 821 (2009)
513. Antideuterons from dark matter decay
     Ibarra, A & Tran, D, JCAP, 06, 004 (2009)
514. Antimatter signals of singlet scalar dark matter
     Goudelis, A, Mambrini, Y & Yaguna, C, JCAP, 12, 008 (2009)
515. Search for Cosmic-Ray Antiparticles with Balloon-borne and Space-borne Experiments
     von Doetinchem, P, PhD Thesis, 77 (2009)
516. Full calculation of clumpiness boost factors for antimatter cosmic rays in the light of ΛCDM N-body simulation results. Abandoning hope in clumpiness enhancement?
     Lavalle, J et al., A&A, 479, 427 (2008)
517. Indirect searches for dark matter with AMS-02
     Brun, P, EPJC, 56, 27 (2008)
518. The antimatter spectrometer (AMS-02): A particle physics detector in space
     Battiston, R, NIMPA, 588, 227 (2008)
519. Dark Matter search with the AMS-02 experiment
     Cardano, F, NIMPA, 588, 239 (2008)
520. Cosmic-ray astrophysics with the AMS-02 experiment
     Oliva, A, NIMPA, 588, 255 (2008)
521. Search for time-dependent fluctuations in cosmic ray flux with the AMS-01 detector and construction of the AMS-02 detector
     Panicci, M, PhD Thesis, 253 (2008)
522. The diffuse Galactic γ-rays from dark matter annihilation
     Bi, X et al., PhLB, 668, 87 (2008)
523. Antideuteron fluxes from dark matter annihilation in diffusion models
     Donato, F, Fornengo, N & Maurin, D, PhRvD, 78, 043506 (2008)
524. Gamma-Ray Spectrum from Gravitino Dark Matter Decay
     Ibarra, A & Tran, D, PhRvL, 100, 061301 (2008)
525. Gamma-rays from decaying dark matter
     Bertone, G et al., JCAP, 11, 003 (2007)
526. Performance of the AMS-02 experiment for high energy gamma ray astrophysics
     Natale, S, PhD Thesis, 132 (2007)
527. Cosmic positron signature from dark matter in the littlest Higgs model with T parity
     Asano, M et al., PhRvD, 75, 063506 (2007)
528. Antiproton and positron signal enhancement in dark matter minispikes scenarios
     Brun, P et al., PhRvD, 76, 083506 (2007)
529. Indirect Search for Dark Matter with AMS Experiment
     Sapinski, M, AcPPB, 37, 1991 (2006)
530. Indirect detection of Kaluza Klein dark matter from latticized universal dimensions
     Hallgren, T & Ohlsson, T, JCAP, 06, 014 (2006)
531. Performance of the AMS-02 transition radiation detector
     Doetinchem, P et al., NIMPA, 558, 526 (2006)
532. Threshold transition radiation detectors in astroparticle physics
     Kirn, T, NIMPA, 563, 338 (2006)
533. El experimento AMS-02 como observatorio de rayos gamma desde la Estación Espacial Internacional
     Sevilla Noarbe, I, PhD Thesis, 471 (2006)
534. Heavy wino-like neutralino dark matter annihilation into antiparticles
     Hisano, J et al., PhRvD, 73, 055004 (2006)
535. Strangelets accelerated by pulsars in galactic cosmic rays
     Cheng, K & Usov, V, PhRvD, 74, 127303 (2006)
536. A Back-Tracing Code to Study the Magnetosphere Transmission Function for Primary Cosmic Rays
     Bobik, P et al., GMS, 155, 301 (2005)
537. High-energy cosmic antiprotons from Kaluza Klein dark matter
     Bringmann, T, JCAP, 08, 006 (2005)
538. Cosmic ray strangelets
     Madsen, J, JPhG, 31, 833 (2005)
539. A study of cosmic ray secondaries induced by the Mir space station using AMS-01
     Aguilar, M et al., NIMPB, 234, 321 (2005)
540. Strangelet propagation and cosmic ray flux
     Madsen, J, PhRvD, 71, 014026 (2005)
541. Searching for dark matter with future cosmic positron experiments
     Hooper, D & Silk, J, PhRvD, 71, 083503 (2005)
542. Gamma ray signatures from Galactic neutralino annihilation
     Valle, G, A&A, 424, 765 (2004)
543. Indirect dark matter search with AMS-02
     Sapinski, M, EPJC, 33, 975 (2004)
544. AMS-Alpha Magnetic Spectrometer on the International Space Station
     Barao, F, NIMPA, 535, 134 (2004)
545. Direct measurement of galactic cosmic ray fluxed with the orbital detector AMS-02
     Casadei, D, PhD Thesis, 220 (2003)
546. Cosmic rays from microquasars: A narrow component to the CR spectrum?
     Heinz, S & Sunyaev, R, A&A, 390, 751 (2002)
547. Colour-flavour locked strangelets and their detection
     Madsen, J, JPhG, 28, 1737 (2002)
548. Design and construction of the prototype synchrotron radiation detector
     This Paper Is Dedicated To The Memory Of Johannes `Jos'kuipers, et al., NIMPA, 491, 98 (2002)
549. AMS-01: First flight, first results; future AMS-02
     Becker, U & AMS Collaboration, 26th International Cosmic Ray Conference, ICRC XXVI, 335 (2000)