Observation of short time-scale spectral emissions at millimeter wavelengths with the new CTS diagnostic on the FTU tokamak

Bruschi, A.; Alessi, E.; Bin, W.; D'Arcangelo, O.; Baiocchi, B.; Belli, F.; Calabrò, G.; Casiraghi, I.; Cocilovo, V.; Figini, L.; Galperti, C.; Garavaglia, S.; Granucci, G.; Grosso, G.; Korsholm, S. B.; Lontano, M.; Lubyako, L. V.; Mazzotta, C.; Mellera, V.; Moro, A.; Nielsen, S. K.; Orsitto, F.; Ramogida, G.; Rasmussen, Jesper; Ricci, D.; Stejner, M.; Tartari, U.; Team, Ftu

doi:10.1088/1741-4326/aa6ce1

Cited by 30 publications

(44 citation statements)

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“…One of the features reported in [4] was studied in more detail, showing correlation with the appearance of a growing m:n = 2:1 magnetic island at 4.7 T central magnetic field, in asymmetric configuration (see [4]) at line-integrated density of around 1 × 10 20 m -3 . In Fig.…”

Section: Analysis Of Experimental Observationsmentioning

confidence: 87%

“…In this way, from the detection of back-scattered power in the case of 2nd harmonic X-mode injection [1,2], the sources of the signals were well explained by waves generated by PDI mechanisms [3]. On FTU, during the work with the CTS diagnostics focused on studying the effects of possible PDI occurrence on EC beams (under Enabling Research project ER-ENEA-06), other still unexplained fast signals were detected in the spectra, in experiments with injection of EC power in O-mode at the fundamental EC harmonic [4]. The possibility to analyze data with a high time resolution is crucial for the study of these fast events, and the use of a fast rate (12 GS/s max) digitizer and of the FFT of the sampled intermediate frequency signal (taken at the output of the 140 GHz heterodyne radiometer front-end) over different time-scales is mandatory [5].…”

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confidence: 98%

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Fast events detection with the CTS diagnostic on FTU and plans for improvement

et al. 2017

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The capability of the CTS diagnostic to detect emissions at frequencies close to the injected EC power can be used to study the occurrence of parametric decay instabilities (PDI) excited by the ECH power. In this way, from the detection of back-scattered power in the case of 2nd harmonic X-mode injection [1,2], the sources of the signals were well explained by waves generated by PDI mechanisms [3]. On FTU, during the work with the CTS diagnostics focused on studying the effects of possible PDI occurrence on EC beams (under Enabling Research project ER-ENEA-06), other still unexplained fast signals were detected in the spectra, in experiments with injection of EC power in O-mode at the fundamental EC harmonic [4]. The possibility to analyze data with a high time resolution is crucial for the study of these fast events, and the use of a fast rate (12 GS/s max) digitizer and of the FFT of the sampled intermediate frequency signal (taken at the output of the 140 GHz heterodyne radiometer front-end) over different time-scales is mandatory [5]. In this paper the observations obtained with new experiments are compared to the previous ones. The design of the new receiving line equipped with a RS antenna and the status of the work are presented. Experiment preparationOn the diagnostic side an effort is ongoing to exclude any parasitic effect of gyrotron spectrum, of highfrequency front-end components, of local breakdown in the antenna and other disturbances. The gyrotron frequency spectrum, previously obtained from a lossy pickup line 50 m long used to measure the gyrotron main line frequency vs time (without using the notch filter), was now obtained with a direct pick-up from the stray radiation in the launcher region while shooting the gyrotron on the local dummy load. In this way a higher signal is collected and a sensitive spectrum of the gyrotron radiation is obtained, using the notch filter to suppress the main line. The resulting spectra from the gyrotron often include spurious lines that appear also in some CTS spectra from plasma, as shown in Fig. 1. The lines of this type have always the same behavior, starting from the beginning of the gyrotron pulse and lasting tens or hundreds of ms with a frequency decreasing with oscillations around an average speed of 2 GHz/s (Fig. 1 top right).Whether these are due to gyrotron spurious mode or to a signal treatment in the HF diagnostic section is under evaluation. The level of the spurious line, not observed in the 2015 shots, is estimated at least 50 dB below the main gyrotron line.The calibration of spectra received from the plasma is now performed comparing the spectra with the ones obtained during Ohmic pulses with the EC resonance inside the plasma (where the emission is only thermal ECE) and subtracting the noise spectra obtained during the same shot with the aid of a chopper/modulator working at around 10 kHz. The spectra obtained during the two chopping phases (on-off) are evaluated by proper data analysis, summed separately and then the noise part is subtracted....

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Section: Analysis Of Experimental Observationsmentioning

confidence: 87%

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confidence: 98%

Fast events detection with the CTS diagnostic on FTU and plans for improvement

et al. 2017

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“…We focus on the case of the one-step down-conversion leading to the low-threshold excitation of the IB and radially trapped UH waves. We derive a set of equations describing the cascade of decays and then solve it numerically under the conditions similar to the on-axis O1-mode ECRH experiments at FTU [6] in which the nonmonotonic density profile arises due to the density pump-out effect from the ECR layer.…”

Section: Low-threshold Parametric Decay Of An Ordinary Wavementioning

confidence: 99%

“…The parametric decay instabilities (PDIs), which can accompany the ECRH experiments, are believed to be deeply suppressed by the huge energy loss of daughter waves from the decay region, according to the predictions of theory developed in 80 th [1]. However, during the last decade numerous ECRH experiments performed at TEXTOR, TCV, TJ-II, ASDEX-UG, LHD, T-10 and FTU [2][3][4][5][6][7][8][9][10][11][12][13] have demonstrated excitation of the anomalous phenomena. The clearest evidence of the nonlinear phenomena excitation was obtained at TEXTOR [2,3] where the strong backscattering signals down-shifted in frequency and amplitude modulated at the frequency of magnetic island were observed.…”

Section: Introductionmentioning

confidence: 99%

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Anomalous absorption in ECRH experiments due to the parametric low-threshold excitation of localized UH waves

Popov

Gusakov

2019

EPJ Web Conf.

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We describe the theoretical model which interprets the anomalous phenomena, i.e. the generation of backscattering signal observed in the ECRH experiments at TEXTOR, TCV, TJ-II, ASDEX-UG, LHD and FTU, as a consequence of the excitation of the parametric decay instability (PDI) leading to anomalous damping of the pump wave. The PDI power-threshold is shown to be extremely low due to the localization of both or one daughter upper hybrid (UH) waves in presence of a nonmonotonic (hollow) density profile, which is often observed in the ECRH experiments due to the magnetic island or the density pump-out effect. In the case of the extraordinary wave pump the model predicts substantial (up to 25%) anomalous absorption in the electron channel and explains the anomalous ion acceleration by the generation of secondary low frequency waves which directly transfer the pump power to the ion component. The possibility of anomalous absorption of the O-mode pump in the ECRH experiment due to the parametric excitation of trapped UH wave is also discussed and the anomalous absorption rate at the 10% level is predicted.

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Feasibility of a collective Thomson scattering diagnostic for burning plasma control on DEMO

Korsholm,

Rasmussen,

Jessen

et al. 2024

Fusion Engineering and Design

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Observation of short time-scale spectral emissions at millimeter wavelengths with the new CTS diagnostic on the FTU tokamak

Abstract: The Collective Thomson Scattering (CTS) diagnostic on FTU tokamak was renewed for investigations on the excitation of Parametric Decay Instabilities (PDI) by Electron Cyclotron (EC) beams in presence of magnetic islands and their effects on the EC absorption.

Cited by 30 publications

References 15 publications

Fast events detection with the CTS diagnostic on FTU and plans for improvement

Fast events detection with the CTS diagnostic on FTU and plans for improvement

Anomalous absorption in ECRH experiments due to the parametric low-threshold excitation of localized UH waves

Feasibility of a collective Thomson scattering diagnostic for burning plasma control on DEMO

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