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Determination of the deuterium temperature profile in magnetic fusion plasmas (1991)

Gorini, G. ; Gottardi, N.

Springer

Il nuovo cimento della Società Italiana di Fisica 13 (1991), S. 319-336

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ISSN: 0392-6737

Keywords: Particle measurements ; PACS 52.25.Tx ; Emission, absorption, and scattering of particles

Source: Springer Online Journal Archives 1860-2000

Topics: Physics

Notes: Summary A new experimental method for determining the radial deuterium temperature profileT D(R) in axisymmetrical toroidal fusion plasmas is presented. The method is based on a generalized Abel inversion of neutron brightness data providing the radial neutron emissivity profile of the plasma. This profile, combined with information on the deuterium density profile, is used to determineT D(R) under the assumption that the ion velocity distribution is Maxwellian. Results are presented here from the analysis of JET data. It is found that, for typical JET plasma conditions, the dominant source of uncertainty arises from the high plasma impurity level and the fact that it is poorly known; these problems can be expected to be remedied and neutron brightness measurements would be expected to be very effective (especially in high-density plasmas) as aT D(R) diagnostics.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02456960

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JET polari-interferometer (1989)

Braithwaite, G. ; Gottardi, N. ; Magyar, G. ; [et al.]

[S.l.] : American Institute of Physics (AIP)

Review of Scientific Instruments 60 (1989), S. 2825-2834

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ISSN: 1089-7623

Source: AIP Digital Archive

Topics: Physics , Electrical Engineering, Measurement and Control Technology

Notes: A multichannel far-infrared interferometer used on the Joint European Torus (JET) is described. The light source is a 195-μm DCN laser. The instrument is of the Mach–Zehnder type, with a heterodyne detection system. The modulation frequency (100 kHz) is produced by diffraction from a rotating grating. There are six vertical and two oblique channels. The latter rely on retroreflection from mirrors mounted on the vessel wall. Their vibration is compensated by a second wavelength interferometer at 118.8 μm. The various subsystems are described, with emphasis on features necessitated by (a) large path lengths, (b) remote handling requirements, (c) fluctuations in atmospheric humidity, and (d) unmanned automatic operation. Typical measurements, along with real-time and off-line data analysis, are presented. The phase-shift measurement is made with an accuracy of (1)/(20) of a fringe, corresponding to a line-integrated electron density of 5×1017 m−2. Comparison with other electron density diagnostics are shown. The introduction of additional optics allows measurements of the Faraday effect and a determination of the poloidal magnetic field distribution. The signal processing and data analysis are described. Errors introduced by the calibration procedure, birefringence of the probing beams, toroidal field pickup, the flux geometry, and the density profile are considered. The Faraday angle is measured with an accuracy of 5% and a time resolution of 1–10 ms. The poloidal magnetic field is deduced with an accuracy of ±15%.