Ramsey-Bord\'e interferometer for electrons
Karl-Peter Marzlin
TL;DR
This paper proposes a theoretical scheme for an electron interferometer using bi-chromatic laser pulses to split electron beams via a modified Kapitza-Dirac effect, enabling precise interference measurements.
Contribution
It introduces a novel interferometric setup for electrons utilizing low-intensity bi-chromatic lasers and a modified Kapitza-Dirac effect for beam splitting.
Findings
The scheme enables electron interference with controlled momentum kicks.
The interferometric setup is theoretically analyzed in a Ramsey-Bordé configuration.
Potential applications in quantum measurement and electron optics.
Abstract
A scheme to realize an electron interferometer using low-intensity, bi-chromatic laser pulses as beam splitter is proposed. The splitting process is based on a modification of the Kapitza-Dirac effect, which produces a momentum kick for electrons with a specific initial momentum. A full interferometric setup in Ramsey-Bord\'e configuration is theoretically analyzed.
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