S. V. Andreev, N. S. Vorob'ev, D. È. Greenfield, V. I. Lozovoi, M. A. Monastyrskii, Yu. N. Serdyuchenko, A. V. Smirnov, M. Ya. Shchelev, “Electron-optical metrology with femtosecond time resolution (theory and experiment)”, Kvantovaya Elektronika, 2013, Volume 43, Number 4,Pages <nobr>392

This article is cited in 2 papers

Extreme light fields and their applications

Electron-optical metrology with femtosecond time resolution (theory and experiment)

S. V. Andreev^a, N. S. Vorob'ev^a, D. È. Greenfield^a, V. I. Lozovoi^a, M. A. Monastyrskii^a, Yu. N. Serdyuchenko^a, A. V. Smirnov^a, M. Ya. Shchelev

^a Prokhorov General Physics Institute of the Russian Academy of Sciences, Moscow

Abstract: The principles of simultaneous spatial and temporal focusing of photoelectron beams in nonstationary electric fields are theoretically studied and experimentally realised as applied to time-analysing image-converter tubes (ICTs). It is theoretically shown that the use of nonstationary focusing electric fields makes it possible to surpass the theoretical time resolution limit of ICTs (10^–4 s) determined for stationary fields by Zavoisky and Fanchenko in the 40s—50s of the last century. The possibility of forming electron packets with an energy of 10—30 KeV and a subfemtosecond duration (below 10^–15 s) gives impetus to the development of time-resolved electron diffraction, which is a direct method of investigation of atomic-molecular dynamics in solid and gaseous media.

Keywords: time-analysing ICTs, photoelectron gun, time aberrations, nonstationary electric fields, temporal compression of photoelectron packets.

PACS: 06.60.Jn, 42.79.Pw, 41.85.-p

Received: 24.12.2012