English 
Italiano 
Design of JT-60SA core Thomson scattering diagnostic system
Tojo H.; Pasqualotto R.; Fassina A.; Giudicotti L.; Sasao H.; Homma H.; Oyama N.
An incoherent Thomson scattering diagnostic will be installed in the JT-60SA tokamak to measure electron temperature and electron density profiles. The target radial spatial resolution is 25 mm with 46 spatial channels. The accuracy in electron temperature and density is a few percent at ne = 7.5 × 1019 m-3, which is the expected value in the plasma core. This paper presents the designs of collection optics, fibers with their alignment system, and polychromators. The collection optics overcomes unique issues for superconducting fusion devices, i.e., limited design space, high-temperature measurements, and harsh radiation condition. When in several years the more performing plasma will generate intense nuclear radiation, the lens materials of the optics can be replaced by radiation resistant glasses without major changes in the lens holder. It will prevent transmission degradation and keep stable measurement accuracy.
Related products
-
Review of scientific instruments 92 (5), pp. 053529-1 - 053529-5 Year: 2021 DOI: 10.1063/5.0043776
First spatially resolved measurements of the D-3He alpha-particle source with the upgraded JET gamma-ray camera
Panontin E.; Rigamonti D.; Nocente M.; Dal Molin A.; Broslawski A.; Craciunescu T.; Croci G.; Cruz N.; Figueiredo J.; Giacomelli L.; Gorini G.; Gosk M.; Kaveney G.; Kazakov Y.O.; Kiptily V.; Korolczuk S.; Marcer G.; Murari A.; Perelli Cippo E.; Salewski M.; Urban A.; Zychor I.; Tardocchi M.
-
Trends in Environmental Analytical Chemistry 30 pp. e00121-1 - e00121-12 Year: 2021 DOI: 10.1016/j.teac.2021.e00121
Laser-Induced Breakdown Spectroscopy applied to environmental systems and their potential contaminants. An overview of advances achieved in the last few years
Goncalves D.A.; Senesi G.S.; Nicolodelli G.
-
Nuclear fusion 61 (7), pp. 076012-1 - 076012-14 Year: 2021 DOI: 10.1088/1741-4326/abfb13
H-mode plasmas in the pre-fusion power operation 1 phase of the ITER research plan
Loarte A.; Polevoi A.R.; Schneider M.; Pinches S.D.; Fable E.; Militello Asp E.; Baranov Y.; Casson F.; Corrigan G.; Garzotti L.; Harting D.; Knight P.; Koechl F.; Parail V.; Farina D.; Figini L.; Nordman H.; Strand P.; Sartori R.
