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Undulator

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This is an old revision of this page, as edited by 131.188.24.2 (talk) at 20:38, 16 September 2006 (Changed the german word "strahlung" in the pic description into the correct english expression "radiation" that should be referred to as "synchrotron radiation" to not mislead anyone). The present address (URL) is a permanent link to this revision, which may differ significantly from the current revision.

Working of the undulator. 1: magnets, 2: electron beam, 3: synchrotron radiation

An undulator is an insertion device from high-energy physics and usually part of a larger installation, a synchrotron storage ring. It consists of a periodic structure of dipole magnets (see dipole magnet). The static magnetic field is alternating along the length of the undulator with a wavelength . Electrons traversing the periodic magnet structure are forced to undergo oscillations and radiate. The radiation produced in an undulator is very intense and concentrated in narrow energy bands in the spectrum. It is also collimated on the orbit plane of the electrons. This radiation is guided through beamlines for experiments in various scientific areas.

The important dimensionless parameter

where e is the particle charge, B the magnetic field, m the electron rest mass and c the speed of light, characterises the nature of the electron motion. For the oscillation amplitude of the motion is small and the radiation displays interference patterns which lead to narrow energy bands. If the oscillation amplitude is bigger and the radiation contributions from each field period sum up independently, leading to a broad energy spectrum. In this regime of fields the device is no longer called an undulator; it is called a wiggler.


D. T. Attwood's page at Berkeley: Soft X-Rays and Extreme Ultraviolet Radiation. His lecture and viewgraphs are available online.