Electromagnetic Simulation and Design of a Novel Waveguide RF Wien Filter for Electric Dipole Moment Measurements of Protons and Deuterons

A. Lehrach; A. Nass; B. Lorentz; D. Heberling; D. H\"olscher; F. Hinder; F. Rathmann; F. Trinkel; H. Soltner; H. Straatmann

arxiv: 1603.01567 · v1 · pith:ZIPODMQKnew · submitted 2016-03-04 · ⚛️ physics.ins-det · nucl-ex

Electromagnetic Simulation and Design of a Novel Waveguide RF Wien Filter for Electric Dipole Moment Measurements of Protons and Deuterons

J. Slim , R. Gebel , D. Heberling , F. Hinder , D. H\"olscher , A. Lehrach , B. Lorentz , S. Mey

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A. Nass F. Rathmann L. Reifferscheidt H. Soltner H. Straatmann F. Trinkel J. Wolters

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classification ⚛️ physics.ins-det nucl-ex

keywords electricfilterwiendesigndeuteronsdevicedipoleelectromagnetic

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The conventional Wien filter is a device with orthogonal static magnetic and electric fields, often used for velocity separation of charged particles. Here we describe the electromagnetic design calculations for a novel waveguide RF Wien filter that will be employed to solely manipulate the spins of protons or deuterons at frequencies of about 0.1 to 2 MHz at the COoler SYnchrotron COSY at J\"ulich. The device will be used in a future experiment that aims at measuring the proton and deuteron electric dipole moments, which are expected to be very small. Their determination, however, would have a huge impact on our understanding of the universe.

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