Abstract
The specifics of energy exchange by nonrelativistic electrons (electron energy of ∼102–103 eV) during their travelling through a dielectric layer have been studied depending on the thickness of the layer applied on substrates with different parameters. Electron travelling across a dielectric (pyrene) layer with a thickness of up to 10 nm deposited on a metal (bismuth) mirror is accompanied by the following effects dependent on the dielectric-layer thickness and the electric parameters of the boundary: a nonmonotonic change in the pyrene luminescence intensity and variation in secondary electron emission.
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