Your search keyword '"Saul Garavaglia"' showing total 2 results

1. New receiving line for the remote-steering antenna of the 140 GHz CTS diagnostics in the FTU Tokamak

Author

Mauro Cappelli, William Bin, Gustavo Granucci, Ocleto D'Arcangelo, G. Gittini, A.A. Tuccillo, Alessandro Bruschi, A. Moro, Francesco Fanale, Saul Garavaglia, F. Pallotta, O. Tudisco, G. Rocchi, Cappelli, M., D'Arcangelo, O., and Rocchi, G.

Subjects

Tokamak, Thomson scattering, Cyclotron, Nuclear instruments and methods for hot plasma diagnostics, Physics::Optics, 01 natural sciences, 7. Clean energy, Plasma diagnostics -probes, 010305 fluids & plasmas, law.invention, Optics, law, 0103 physical sciences, 010306 general physics, Instrumentation, Mathematical Physics, Physics, Coupling, Plasma diagnostics -probe, business.industry, Transmission (telecommunications), Physics::Accelerator Physics, Plasma diagnostics - probes, Antenna (radio), business, Waveguide, Stellarator

Abstract

A new receiving antenna for collecting signals of the Collective Thomson Scattering (CTS) diagnostics in FTU Tokamak has been recently installed. The squared corrugated section and the precisely defined length make it possible to receive from different directions by remotely steering the receiving mirrors. This type of Remote-Steering (RS) antennas, being studied on FTU for the DEMO Electron Cyclotron Heating (ECH) system launch, is already installed on the W7- X stellarator and will be tested in the next campaign. The transmission of the signal from the antenna in the tokamak hall to the CTS diagnostics hall will be mainly realized by means of oversized circular corrugated waveguides carrying the hybrid HE11 (quasi-gaussian) waveguide mode, with inclusion of a special smooth-waveguide section and a short run of reduced-size square-corrugated waveguide through the tokamak bio-shield. The coupling between different waveguide types is made with ellipsoidal focusing mirrors, using quasi-optical matching formulas between the gaussian-shaped beams in input and output to the waveguides. In this work, after a complete study of feasibility of the overall line, a design for the receiving line will be proposed, in order to realize an executive layout to be used as a guideline for the commissioning phase. © 2018 ENEA. Published by IOP Publishing Ltd on behalf of Sissa Medialab.

Published

2018

2. Integration of a secondary line for non-scattering plasma signals and gyrotron's spectrum monitoring

Author

F. Pallotta, Gustavo Granucci, Francesco Fanale, G. Gittini, A. Moro, Ocleto D'Arcangelo, Alessandro Bruschi, Saul Garavaglia, U. Tartari, F.P. Orsitto, B. Baiocchi, William Bin, Giovanni Grosso, Bin, W., Bruschi, A., D'Arcangelo, O., Fanale, F., Baiocchi, B., Gittini, G., Pallotta, F., Garavaglia, S., Granucci, G., Grosso, G., Moro, A., Tartari, U., and Orsitto, F.

Subjects

Thomson scattering, Nuclear instruments and methods for hot plasma diagnostics, Inelastic scattering, 01 natural sciences, 010305 fluids & plasmas, law.invention, Optics, Physics::Plasma Physics, Microwave Antennas, law, Electrical equipment, Gyrotron, 0103 physical sciences, 010306 general physics, Instrumentation, Mathematical Physics, Line (formation), Physics, Microwave radiometers, Scattering, business.industry, Amplifier, Microwave radiometer, Plasma, Microwave Antenna, Physics::Accelerator Physics, business

Abstract

During the last years the Collective Thomson Scattering (CTS) system installed on the Frascati Tokamak Upgrade (FTU), operating at 140 GHz, has been exploited to investigate different kinds of phenomena: high-frequency daughter waves by Parametric Decay Instabilities, which, under certain conditions, are recently presumed to be conceivable even under routine ECRH scenarios, and bulk ions thermal emissions stimulated by a 140 GHz gyrotron beam. A new receiving line, giving rise to a second further line of sight from the plasma during the scattering experiments and integrated in the CTS antenna, has been recently completed and installed. Such new line will be useful to recognise signals originating in the volume of beams cross from the ones coupled outside or also to monitor the gyrotron's spectrum in real-time during the shot. The present status of this new installation is shown in the paper.

Published

2019