SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3100559672> ?p ?o ?g. }

Showing items 1 to 100 of ±145 with 100 items per page.

W3100559672 endingPage "47" @default.
W3100559672 startingPage "36" @default.
W3100559672 abstract "The search for a theory of the origin of cosmic rays that may be considered as a standard, agreeable model is still ongoing. On one hand, much circumstantial evidence exists of the fact that supernovae in our Galaxy play a crucial role in producing the bulk of cosmic rays observed on Earth. On the other hand, important questions about their ability to accelerate particles up to the knee remain unanswered. The common interpretation of the knee as a feature coinciding with the maximum energy of the light component of cosmic rays and a transition to a gradually heavier mass composition is mainly based on KASCADE results. Some recent data appear to question this finding: YAC1 – Tibet Array and ARGO-YBJ find a flux reduction in the light component at ∼ 700 TeV, appreciably below the knee. Whether the maximum energy of light nuclei is as high as 3000 TeV or rather as low as a few hundred TeV has very important consequences on the supernova remnant paradigm for the origin of cosmic rays, as well on the crucial issue of the transition from Galactic to extragalactic cosmic rays. In such a complex phenomenological situation, it is important to have a clear picture of what is really known and what is not. Here I will discuss some solid and less solid aspects of the theory (or theories) for the origin of cosmic rays and the implications for future searches in this field." @default.
W3100559672 created "2020-11-23" @default.
W3100559672 creator A5016024625 @default.
W3100559672 date "2014-11-01" @default.
W3100559672 modified "2023-09-27" @default.
W3100559672 title "Recent developments in cosmic ray physics" @default.
W3100559672 cites W1519627942 @default.
W3100559672 cites W1600917534 @default.
W3100559672 cites W1664606506 @default.
W3100559672 cites W1678685671 @default.
W3100559672 cites W1894075981 @default.
W3100559672 cites W1963907373 @default.
W3100559672 cites W1967511494 @default.
W3100559672 cites W1967596350 @default.
W3100559672 cites W1967873073 @default.
W3100559672 cites W1977992629 @default.
W3100559672 cites W1982226483 @default.
W3100559672 cites W1984177833 @default.
W3100559672 cites W1986859482 @default.
W3100559672 cites W1988456857 @default.
W3100559672 cites W1991512239 @default.
W3100559672 cites W1994673795 @default.
W3100559672 cites W1999607050 @default.
W3100559672 cites W2003731194 @default.
W3100559672 cites W2007846280 @default.
W3100559672 cites W2010126083 @default.
W3100559672 cites W2013877959 @default.
W3100559672 cites W2015548742 @default.
W3100559672 cites W2018058449 @default.
W3100559672 cites W2018405278 @default.
W3100559672 cites W2029404536 @default.
W3100559672 cites W2032882333 @default.
W3100559672 cites W2033010036 @default.
W3100559672 cites W2034366994 @default.
W3100559672 cites W2043690702 @default.
W3100559672 cites W2044015706 @default.
W3100559672 cites W2049511512 @default.
W3100559672 cites W2055412187 @default.
W3100559672 cites W2058794574 @default.
W3100559672 cites W2059778252 @default.
W3100559672 cites W2062873624 @default.
W3100559672 cites W2066945863 @default.
W3100559672 cites W2070960143 @default.
W3100559672 cites W2071204794 @default.
W3100559672 cites W2073038587 @default.
W3100559672 cites W2078444117 @default.
W3100559672 cites W2081160630 @default.
W3100559672 cites W2083055131 @default.
W3100559672 cites W2085912356 @default.
W3100559672 cites W2092825984 @default.
W3100559672 cites W2096565594 @default.
W3100559672 cites W2096744570 @default.
W3100559672 cites W2098659573 @default.
W3100559672 cites W2101432144 @default.
W3100559672 cites W2101888749 @default.
W3100559672 cites W2105035828 @default.
W3100559672 cites W2106967235 @default.
W3100559672 cites W2107558798 @default.
W3100559672 cites W2109173054 @default.
W3100559672 cites W2117086324 @default.
W3100559672 cites W2120048531 @default.
W3100559672 cites W2126602373 @default.
W3100559672 cites W2126611763 @default.
W3100559672 cites W2128691539 @default.
W3100559672 cites W2129332829 @default.
W3100559672 cites W2129754206 @default.
W3100559672 cites W2134884842 @default.
W3100559672 cites W2148546420 @default.
W3100559672 cites W2153524139 @default.
W3100559672 cites W2162255659 @default.
W3100559672 cites W2163742830 @default.
W3100559672 cites W2166503936 @default.
W3100559672 cites W2168466376 @default.
W3100559672 cites W2998523666 @default.
W3100559672 cites W3098071706 @default.
W3100559672 cites W3100061706 @default.
W3100559672 cites W3100231366 @default.
W3100559672 cites W3101220423 @default.
W3100559672 cites W3101722290 @default.
W3100559672 cites W3101768983 @default.
W3100559672 cites W3102190058 @default.
W3100559672 cites W3102220743 @default.
W3100559672 cites W3102365499 @default.
W3100559672 cites W3103558233 @default.
W3100559672 cites W3103866162 @default.
W3100559672 cites W3104134769 @default.
W3100559672 cites W3104417343 @default.
W3100559672 cites W3106012582 @default.
W3100559672 cites W3106210650 @default.
W3100559672 cites W3106531382 @default.
W3100559672 cites W3122459657 @default.
W3100559672 cites W3123465154 @default.
W3100559672 cites W3124088632 @default.
W3100559672 cites W3125558302 @default.
W3100559672 cites W3137594056 @default.
W3100559672 cites W2159664770 @default.
W3100559672 doi "https://doi.org/10.1016/j.nuclphysbps.2014.10.004" @default.
W3100559672 hasPublicationYear "2014" @default.