A. Tancetti scite author profile

Demonstrating improved confinement of energetic ions is one of the key goals of the Wendelstein 7-X (W7-X) stellarator. In the past campaigns, measuring confined fast ions has proven to be challenging. Future deuterium campaigns would open up the option of using fusion-produced neutrons to indirectly observe confined fast ions. There are two neutron populations: 2.45 MeV neutrons from thermonuclear and beam-target fusion, and 14.1 MeV neutrons from DT reactions between tritium fusion products and bulk deuterium. The 14.1 MeV neutron signal can be measured using a scintillating fiber neutron detector, whereas the overall neutron rate is monitored by common radiation safety detectors, for instance fission chambers. The fusion rates are dependent on the slowing-down distribution of the deuterium and tritium ions, which in turn depend on the magnetic configuration via fast ion orbits. In this work, we investigate the effect of magnetic configuration on neutron production rates in W7-X. The neutral beam injection, beam and triton slowing-down distributions, and the fusion reactivity are simulated with the ASCOT suite of codes. The results indicate that the magnetic configuration has only a small effect on the production of 2.45 MeV neutrons from DD fusion and, particularly, on the 14.1 MeV neutron production rates. Despite triton losses of up to 50 %, the amount of 14.1 MeV neutrons produced might be sufficient for a time-resolved detection using a scintillating fiber detector, although only in high-performance discharges.

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Nonlinear decay of high-power microwaves into trapped modes in inhomogeneous plasma

Tancetti¹,

Nielsen²,

Rasmussen³

et al. 2022

Nucl. Fusion

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We present novel experimental evidence of parametric decay instability of microwave beams in the plasma edge of Wendelstein 7-X stellarator. We propose that the instability is sustained by trapping of only one daughter wave in the non-monotonic density profile measured with high spatial resolution within a stationary magnetic island. The power levels and spectral shapes of the detected microwave signal are reproduced by numerical modelling and a theoretical power threshold is predicted around 300 kW, comparable with observations. We predict a fraction of power drained by daughter waves around 4% in the experiments, potentially increasing above 50% for minor modifications of the density bump. Such absorption levels could significantly reduce the efficiency of the microwave heating and current-drive system in tokamaks and stellarators.

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Collective Thomson Scattering Diagnostic for Wendelstein 7-X at 175 GHz

et al. 2020

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A: The Collective Thomson Scattering (CTS) diagnostic measures the scattering spectrum of incident radiation off collective fluctuations in plasmas. In Wendelstein 7-X (W7-X) the diagnostic uses a 140 GHz heating gyrotron as a source of the probing radiation. At this frequency, the CTS spectra are heavily affected by the electron cyclotron emission, and the microwave beam propagation is restricted at typical W7-X plasma parameters. The diagnostic was successfully commissioned in the last experimental campaign and demonstrated ion temperature measurements. However, the signal-to-noise ratio was too low for measuring other quantities such as the fast-ion velocity distribution function or the fuel ion ratio. Currently, the W7-X CTS diagnostic is undergoing an upgrade to a frequency of 175 GHz. This will increase the sensitivity of the diagnostic, since the noise due to electron cyclotron emission will be reduced, and it will relax the constraints on 1Corresponding author.

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Inhibition of parametric decay in heating microwave beams during fluctuations of the density profile in the edge island of Wendelstein 7-X

Tancetti¹,

Nielsen²,

Rasmussen³

et al. 2022

Plasma Phys. Control. Fusion

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Experimental evidence of parametric decay instability (PDI) is observed in Wendelstein 7-X (W7-X) stellarator, when high-power microwave beams cross a stationary magnetic island in the plasma edge. Here, trapping and build-up of upper hybrid waves (UHWs) within a density bump (measured within the island by alkali beam emission spectroscopy, ABES) is responsible for the reduction of the instability power threshold below the maximum gyrotron power. In this paper, we provide first experimental evidence of the connection between the trapping mechanism in the island density bump and excitation of PDI-related signals. We show correlation of periodic crashes in the PDI-related signals with quasi-continuous fluctuations in the plasma edge, which, additionally, cause a flattening of the density profile in the island. We demonstrate that flattening of the experimental density profiles can suppress the trapping mechanism and inhibit the low-threshold PDI. PDI in the edge island could alter the power deposition profile and reduce the efficiency of the electron cyclotron resonance heating system, simultaneously posing a serious threat to the optimal operation of microwave-based diagnostics and plasma-facing components.

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Observation of non-thermal electrons outside the SOL in the Wendelstein 7-X stellarator

Killer

Aleynikov

Biedermann

et al. 2022

Nuclear Materials and Energy

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A. Tancetti

Overview of first Wendelstein 7-X high-performance operation

Nonlinear decay of high-power microwaves into trapped modes in inhomogeneous plasma

Collective Thomson Scattering Diagnostic for Wendelstein 7-X at 175 GHz

Inhibition of parametric decay in heating microwave beams during fluctuations of the density profile in the edge island of Wendelstein 7-X

Observation of non-thermal electrons outside the SOL in the Wendelstein 7-X stellarator

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