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W2008044917 abstract "[1] Both hybrid/full particle simulations and recent experimental results have clearly evidenced that the front of a supercritical quasi-perpendicular shock can be nonstationary. One responsible mechanism proposed for this nonstationarity is the self-reformation of the front itself being due to the accumulation of reflected ions. Important consequences of this nonstationarity are that not only the amplitude but also the spatial scales of fields components at the shock front (ramp and foot) are strongly varying within each cycle of the self-reformation. On the other hand, several studies have been made on the acceleration and heating of heavy ions but most have been restricted to a stationary shock profile only. Herein, one-dimensional test particle simulations based on shock profiles fields produced in PIC simulation are performed in order to investigate the impact of the shock front nonstationarity on heavy ion acceleration (He, O, Fe). Reflection and acceleration mechanisms of heavy ions (with different initial thermal velocities and different charge-mass ratios) interacting with a nonstationary shock front (self-reformation) are analyzed in detail. Present preliminary results show that: (1) the heavy ions suffer both shock drift acceleration (SDA) and shock surfing acceleration (SSA) mechanisms; (2) the fraction of reflected heavy ions increases with initial thermal velocity, charge-mass ratio and decreasing shock front width at both stationary shocks (situation equivalent to fixed shock cases) and nonstationary shocks (situation equivalent to continuously time-evolving shock cases); (3) the shock front nonstationarity (time-evolving shock case) facilitates the reflection of heavy ions; (4) a striking feature is the formation of an injected monoenergetic heavy ions population which persists in the shock front spectrum for different initial thermal velocities and ions species. The impact of the shock front nonstationarity on the heavy ions spectra within the shock front region and the downstream region are detailed separately. Present results are compared with previous experimental analysis and theoretical models of solar energetic particles (SEP) events. The variations of Fe/O spectra in high energy part have been retrieved, and the nonstationary effects of shock front strongly amplify these variations." @default.
W2008044917 created "2016-06-24" @default.
W2008044917 creator A5020764416 @default.
W2008044917 creator A5055857360 @default.
W2008044917 creator A5062755273 @default.
W2008044917 date "2011-10-01" @default.
W2008044917 modified "2023-09-25" @default.
W2008044917 title "Acceleration of heavy ions by perpendicular collisionless shocks: Impact of the shock front nonstationarity" @default.
W2008044917 cites W1490708427 @default.
W2008044917 cites W1642582338 @default.
W2008044917 cites W1966108843 @default.
W2008044917 cites W1973121292 @default.
W2008044917 cites W1974640703 @default.
W2008044917 cites W1975201090 @default.
W2008044917 cites W1977841716 @default.
W2008044917 cites W1978572776 @default.
W2008044917 cites W1979975569 @default.
W2008044917 cites W1983229176 @default.
W2008044917 cites W1983936783 @default.
W2008044917 cites W1984756998 @default.
W2008044917 cites W1987389919 @default.
W2008044917 cites W1989756559 @default.
W2008044917 cites W1990263750 @default.
W2008044917 cites W1990556791 @default.
W2008044917 cites W1991331110 @default.
W2008044917 cites W1994673795 @default.
W2008044917 cites W1996771930 @default.
W2008044917 cites W1996784809 @default.
W2008044917 cites W1999988049 @default.
W2008044917 cites W2005084092 @default.
W2008044917 cites W2005599606 @default.
W2008044917 cites W2008296107 @default.
W2008044917 cites W2009545094 @default.
W2008044917 cites W2009842141 @default.
W2008044917 cites W2009850306 @default.
W2008044917 cites W2011822443 @default.
W2008044917 cites W2013238982 @default.
W2008044917 cites W2018681843 @default.
W2008044917 cites W2021039216 @default.
W2008044917 cites W2021176869 @default.
W2008044917 cites W2022084538 @default.
W2008044917 cites W2024300219 @default.
W2008044917 cites W2024368991 @default.
W2008044917 cites W2029125020 @default.
W2008044917 cites W2029442695 @default.
W2008044917 cites W2030460964 @default.
W2008044917 cites W2033324485 @default.
W2008044917 cites W2033882727 @default.
W2008044917 cites W2035268998 @default.
W2008044917 cites W2036650128 @default.
W2008044917 cites W2037874344 @default.
W2008044917 cites W2043690702 @default.
W2008044917 cites W2044577747 @default.
W2008044917 cites W2045242891 @default.
W2008044917 cites W2045361347 @default.
W2008044917 cites W2046133981 @default.
W2008044917 cites W2047792513 @default.
W2008044917 cites W2048311554 @default.
W2008044917 cites W2048351724 @default.
W2008044917 cites W2049990533 @default.
W2008044917 cites W2050734594 @default.
W2008044917 cites W2050786466 @default.
W2008044917 cites W2051082260 @default.
W2008044917 cites W2059017193 @default.
W2008044917 cites W2059160958 @default.
W2008044917 cites W2060963248 @default.
W2008044917 cites W2062945720 @default.
W2008044917 cites W2063712348 @default.
W2008044917 cites W2065398108 @default.
W2008044917 cites W2066578177 @default.
W2008044917 cites W2068592163 @default.
W2008044917 cites W2069414247 @default.
W2008044917 cites W2078453337 @default.
W2008044917 cites W2081443026 @default.
W2008044917 cites W2081873032 @default.
W2008044917 cites W2083339883 @default.
W2008044917 cites W2087419661 @default.
W2008044917 cites W2087770561 @default.
W2008044917 cites W2089674342 @default.
W2008044917 cites W2096562541 @default.
W2008044917 cites W2097848974 @default.
W2008044917 cites W2112831237 @default.
W2008044917 cites W2131531891 @default.
W2008044917 cites W2132877252 @default.
W2008044917 cites W2140017512 @default.
W2008044917 cites W2148043627 @default.
W2008044917 cites W2151831953 @default.
W2008044917 cites W2169996752 @default.
W2008044917 cites W4233845421 @default.
W2008044917 cites W4235368699 @default.
W2008044917 cites W4251369586 @default.
W2008044917 doi "https://doi.org/10.1029/2011ja016605" @default.
W2008044917 hasPublicationYear "2011" @default.
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