Absolute and non-invasive determination of the electron bunch length in a Free Electron Laser using a Bunch Compressor Monitor (2305.17042v1)

Abstract: In a linac driven Free Electron Laser (FEL), the shot-to-shot and non-invasive monitoring of the electron bunch length is normally ensured by Bunch Compressor Monitors (BCMs). The bunch-length dependent signal of a BCM results from the detection and integration - over a given frequency band - of the temporal coherent enhancement of the radiation spectral energy emitted by the electron beam while experiencing a longitudinal compression. In this letter, we present a method that permits to express the relative variation of the bunch length as a function of the relative statistical fluctuations of the BCM signal and charge. Furthermore, in the case of a BCM equipped with two detectors simultaneously operating in two distinct wavelength bands, the method permits an absolute determination of the bunch length. The presented method is beneficial to a FEL since it permits to tune the machine compression feedback with respect to the measured bunch length instead of the bunch-length dependent signal. In a CW-linac driven FEL, it can offer the precious opportunity to implement a fully non-invasive and absolute diagnostics of the bunch length.