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W2531454821 endingPage "123006" @default.
W2531454821 startingPage "123006" @default.
W2531454821 abstract "Slow swift electrons with low self-inertia interact differently with matter and light in comparison with their relativistic counterparts: they are easily recoiled, reflected, and also diffracted form optical gratings and nanostructures. As a consequence, they can be also better manipulated into the desired shape. For example, they get bunched quite fast in interaction with acceleration gratings in presence of an external electromagnetic radiation, a phenomenon which can be desirable in development of superradiant coherent light sources. Here, I examine the spatiotemporal behavior of pulsed electron wave packets at low energies interacting with pulsed light and optical gratings, using a quantum-mechanical self-consistent numerical toolbox which is introduced here. It will be shown that electron pulses are accelerated very fast in interaction with the near-field of the grating, demanding that a synchronicity condition is met. To prevent the electrons to be transversely deflected from the grating a symmetric double-grating configuration is necessary. It is found that even in this configuration, diffraction due to the interaction of the electron with the standing-wave light inside the gap between the gratings, is a source of defocusing. Moreover, the longitudinal broadening of the electron pulse directly affects the final shape of the electron wave packet due to the occurrence of multiple electron-photon scatterings. These investigations pave the way towards the design of more efficient electron-driven photon sources and accelerators." @default.
W2531454821 created "2016-10-21" @default.
W2531454821 creator A5057562421 @default.
W2531454821 date "2016-12-02" @default.
W2531454821 modified "2023-10-18" @default.
W2531454821 title "Schrödinger electrons interacting with optical gratings: quantum mechanical study of the inverse Smith–Purcell effect" @default.
W2531454821 cites W1552003454 @default.
W2531454821 cites W1575649340 @default.
W2531454821 cites W1964317258 @default.
W2531454821 cites W1968910282 @default.
W2531454821 cites W1972071164 @default.
W2531454821 cites W1973253801 @default.
W2531454821 cites W1974312865 @default.
W2531454821 cites W1976199250 @default.
W2531454821 cites W1977154511 @default.
W2531454821 cites W1986219311 @default.
W2531454821 cites W1986618939 @default.
W2531454821 cites W1987542364 @default.
W2531454821 cites W1987683430 @default.
W2531454821 cites W1988571376 @default.
W2531454821 cites W1995858135 @default.
W2531454821 cites W1997238450 @default.
W2531454821 cites W2002133338 @default.
W2531454821 cites W2005315955 @default.
W2531454821 cites W2006214769 @default.
W2531454821 cites W2008096589 @default.
W2531454821 cites W2008631799 @default.
W2531454821 cites W2014471583 @default.
W2531454821 cites W2020006133 @default.
W2531454821 cites W2022103491 @default.
W2531454821 cites W2023888393 @default.
W2531454821 cites W2024134246 @default.
W2531454821 cites W2025730071 @default.
W2531454821 cites W2033336421 @default.
W2531454821 cites W2035914715 @default.
W2531454821 cites W2037302413 @default.
W2531454821 cites W2040399205 @default.
W2531454821 cites W2041728751 @default.
W2531454821 cites W2042333064 @default.
W2531454821 cites W2042683960 @default.
W2531454821 cites W2043168220 @default.
W2531454821 cites W2046817341 @default.
W2531454821 cites W2048338165 @default.
W2531454821 cites W2049759336 @default.
W2531454821 cites W2050566174 @default.
W2531454821 cites W2056832579 @default.
W2531454821 cites W2064339003 @default.
W2531454821 cites W2066813138 @default.
W2531454821 cites W2073345474 @default.
W2531454821 cites W2073401318 @default.
W2531454821 cites W2073451983 @default.
W2531454821 cites W2075147108 @default.
W2531454821 cites W2075841821 @default.
W2531454821 cites W2080419923 @default.
W2531454821 cites W2081110279 @default.
W2531454821 cites W2083139252 @default.
W2531454821 cites W2088112866 @default.
W2531454821 cites W2091949001 @default.
W2531454821 cites W2092403366 @default.
W2531454821 cites W2094138972 @default.
W2531454821 cites W2095029986 @default.
W2531454821 cites W2115226262 @default.
W2531454821 cites W2133189744 @default.
W2531454821 cites W2144871914 @default.
W2531454821 cites W2151901634 @default.
W2531454821 cites W2152524828 @default.
W2531454821 cites W2156612605 @default.
W2531454821 cites W2161399929 @default.
W2531454821 cites W2162899549 @default.
W2531454821 cites W2171878214 @default.
W2531454821 cites W2235491549 @default.
W2531454821 cites W2277250456 @default.
W2531454821 cites W2281266545 @default.
W2531454821 cites W2291707750 @default.
W2531454821 cites W2312316851 @default.
W2531454821 cites W2316732684 @default.
W2531454821 cites W2323595968 @default.
W2531454821 cites W2342222444 @default.
W2531454821 cites W2400336398 @default.
W2531454821 cites W2432381463 @default.
W2531454821 cites W2473813081 @default.
W2531454821 cites W2997607270 @default.
W2531454821 cites W3104093946 @default.
W2531454821 cites W3105213540 @default.
W2531454821 cites W3105574241 @default.
W2531454821 cites W3124490728 @default.
W2531454821 cites W4235099957 @default.
W2531454821 cites W4301424708 @default.
W2531454821 doi "https://doi.org/10.1088/1367-2630/18/12/123006" @default.
W2531454821 hasPublicationYear "2016" @default.
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