Wade Rush scite author profile

Wade Rush

5Publications

28Citation Statements Received

34Citation Statements Given

How they've been cited

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Affiliations

Euclid Techlabs (United States), University of Kansas

Publications

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Laser-free GHz stroboscopic transmission electron microscope: Components, system integration, and practical considerations for pump–probe measurements

Lau

Schliep

Katz

et al. 2020

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A 300 keV transmission electron microscope was modified to produce broadband pulsed beams that can be, in principle, between 40 MHz and 12 GHz, corresponding to temporal resolution in the nanosecond to picosecond range without an excitation laser. The key enabling technology is a pair of phase-matched modulating and de-modulating traveling wave metallic comb striplines (pulsers). An initial temporal resolution of 30 ps was achieved with a strobe frequency of 6.0 GHz. The placement of the pulsers, mounted immediately below the gun, allows for preservation of all optical configurations, otherwise available to the unmodified instrument, and therefore makes such a post-modified instrument for dual-use, i.e., both pulsed-beam mode (i.e., stroboscopic time-resolved) and conventional continuous waveform mode. In this article, we describe the elements inserted into the beam path, challenges encountered during integration with an in-service microscope, and early results from an electric-field-driven pump–probe experiment. We conclude with ideas for making this class of instruments broadly applicable for examining cyclical and repeatable phenomena.

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Tunable electron beam pulser for picoseconds stroboscopic microscopy in transmission electron microscopes

et al. 2019

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A general formalism of two-dimensional lattice potential on beam transverse plane for studying channeling radiation

Shi

Rush

2018

Nuclear Instruments and Methods in Physics Research Section B:

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To study channeling radiation produced by an ultra-relativistic electron beam channeling through a single crystal, a lattice potential of the crystal is required for solving the transverse motion of beam electrons under the influence of the crystal lattice. In this paper, we present a general formalism for this two-dimensional lattice potential of a crystal with a Lorentz contraction in the beam channeling direction. With this formalism, the lattice potential can be calculated without approximation from any given model of electron-ion interaction for an ultra-relativistic beam channeling in any crystal direction. The formalism presented should be the standard recipe of the lattice potential for studying the channeling radiation.

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Commissioning and First Results From Channeling Radiation At FAST

Halavanau¹,

Mihalcea²,

Broemmelsiek³

et al. 2016

Preprint

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Expected Results From Channeling Radiation Experiments at Fast

Sen¹,

Broemmelsiek²,

Edstrom³

et al. 2016

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Wade Rush

Laser-free GHz stroboscopic transmission electron microscope: Components, system integration, and practical considerations for pump–probe measurements

Tunable electron beam pulser for picoseconds stroboscopic microscopy in transmission electron microscopes

A general formalism of two-dimensional lattice potential on beam transverse plane for studying channeling radiation

Commissioning and First Results From Channeling Radiation At FAST

Expected Results From Channeling Radiation Experiments at Fast

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