A. Boboc B. Bieg R. Felton S. Dalley Yu. Kravtsov
In this paper, we present the work in the implementation of a new calibration for the JET real-time polarimeter based on the complex amplitude ratio technique and a new self-validation mechanism of data. This allowed easy integration of the polarimetry measurements into the JET plasma density control (gas feedback control) and as well as machine pr…
Preprint PublishedM. Gelfusa A. Murari P. Gaudio A. Boboc M. Brombin F. P. Orsitto E. Giovannozzi JET EFDA Contributors
An equivalent model of JET polarimeter is presented, which overcomes the drawbacks of previous versions of the fitting procedures used to provide calibrated results. First of all the signal processing electronics has been simulated, to confirm that it is still working within the original specifications. Then the effective optical path of both the v…
PublishedOliver Ford J. Svensson A. Boboc D. C. Mcdonald JET-EFDA Contributors
An analytical Bayesian inversion of the JET interferometry line integrated densities into density profiles and associated uncertainty information, is demonstrated. These are used, with a detailed model of plasma polarimetry, to predict the rotation and ellipticity for the JET polarimeter. This includes the lateral channels, for over 45,000 time poi…
PublishedA. Murari L. Zabeo A. Boboc D. Mazon M. Riva
Optical interferometers are normally used in magnetically confined plasmas to measure the refractive index of the plasma by comparing the phase shift variation between a reference and a probe laser beam, from which the line-integrated electron density can be derived. Unfortunately, interferometric measurements are affected by fringe jumps, which ar…
Published- 1
- 2