1. DAQ system for profile recording of ns thomson rcattering pulses
- Author
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Andrew N. Kvashnin, Vladimir V. Solokha, Peter V. Zubarev, Aleksander P. Chernakov, D. V. Moiseev, E. A. Puryga, S. V. Ivanenko, and Aleksander D. Khilchenko
- Subjects
Physics ,Tokamak ,Thomson scattering ,Scattering ,business.industry ,Divertor ,Bandwidth (signal processing) ,Electrical engineering ,Photodetector ,Photodetection ,01 natural sciences ,010305 fluids & plasmas ,law.invention ,Data acquisition ,law ,0103 physical sciences ,010306 general physics ,business - Abstract
Thomson scattering (TS) is the most accurate and useful method of measuring plasma electron temperature and density in fusion-oriented experiments. The small power (∼10−8W) and short duration (∼10 ns and less) of scattering signal are the main technical problems of the method. That is why highest requirements are made to photodetection and recording systems. Developed by Budker Institute of Nuclear Physics (Novosibirsk, Russia) fast DAQ system allows recording profiles of short duration (3-5 ns) scattered pulses in 0-200MHz bandwidth with 2GSPS rate and 12-bit resolution. The system consists of photo detector modules (with 200MHz bandwidth), fast (2GSPS) and slow (10MSPS) ADC modules and synchronization subsystem. The 48-channel version of this system was developed as a prototype for ITER (Cadarache, France) divertor Thomson scattering diagnostic. The system was tested and put into operation on GLOBUS-M tokamak (St. Petersburg, Russia).
- Published
- 2016