2006
DOI: 10.1088/0029-5515/46/9/s12
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Fluctuation spectra and velocity profile from Doppler backscattering on Tore Supra

Abstract: Backscattering of a microwave beam close to the cut-off allows for measurement of density fluctuations ñ( k ⊥ ) at a specified wave-number, selected by the scattering geometry k ⊥ = −2 k i , where k i is the beam wave-number at the reflection layer. On the Doppler reflectometry system installed on Tore Supra, both the scattering wave-number k ⊥ and the scattering localization (r/a) can be changed during the shot owing to the steppable probing frequency and the motorized antenna. Operating in O mode, the spatia… Show more

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Cited by 89 publications
(104 citation statements)
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“…fig. 1) then radiation will be scattered back to the reflectometer receiver antenna [11,12]. If the fluctuations move relative to the diagnostic antennas the backscattered signal spectrum is Doppler frequency shifted by ¾ Ù¡ Ù ·Ù ·Ù Ö Ö , where Ù is the mean velocity of the density fluctuations and the Bragg matched wavenumber.…”
Section: Introductionmentioning
confidence: 99%
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“…fig. 1) then radiation will be scattered back to the reflectometer receiver antenna [11,12]. If the fluctuations move relative to the diagnostic antennas the backscattered signal spectrum is Doppler frequency shifted by ¾ Ù¡ Ù ·Ù ·Ù Ö Ö , where Ù is the mean velocity of the density fluctuations and the Bragg matched wavenumber.…”
Section: Introductionmentioning
confidence: 99%
“…the Doppler shift is directly proportional to the phase velocity of the fluctuations Ú Ô moving in the plasma ¢ (guiding centre) frame, Ù Ú ¢ · Ú Ô . If Ú Ô is known, or small Ú ¢ Ú Ô , then the ¢ velocity, and hence the radial electric field Ö , can be extracted directly from with good accuracy [12][13][14]. The magnitude of Ú Ô has been investigated using linear and non-linear gyrokinetic turbulence codes for realistic tokamak conditions [15].…”
mentioning
confidence: 99%
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“…Spectra shown in Fig 1 b exhibit different behaviours, according to their radial position : slopes for low k r are almost identical, S δn (k r , r) ∼ k −2 r , for 1 cm −1 < k r < 10 cm −1 ( 0.1 < k r ρ s < 1, ρ s being the electronic Larmor gyroradius ). Some discrepancies appear while comparing with k θ spectra previously extracted from the coherent forward Thomson scattering diagnostic [7], scaling with k −3.5 ⊥ for 6 cm −1 < k ⊥ 14 cm −1 ( 0.5 < k ⊥ ρ s < 2.5 ) and the Doppler reflectometry [8] , scaling with…”
Section: Density Fluctuations Spectra and Profiles -Scaling Of δN E /N Ementioning
confidence: 85%
“…Doppler reflectometry can measure the perpendicular velocity of electron density fluctuations v ⊥ , the radial electric field E r , and the perpendicular wavenumber spectrum S (k ⊥ ) in magnetized confinement plasmas. As a result, a number of systems have been used in worldwide fusion plasma devices, such as tokamaks (Tuman-3M [2], ASDEX Upgrade [3][4][5], Tore Supra [6,7], DIII-D [8,9], JT-60U [10]) and helical/stellarators (Wendelstein 7-AS [1,11], TJ-II [12], LHD [13]). …”
Section: Introductionmentioning
confidence: 99%