P. Ricci scite author profile

P. Ricci

2Publications

4Citation Statements Received

170Citation Statements Given

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Moment-Based Approach to the Flux-Tube linear Gyrokinetic Model

Frei¹,

D.²,

Ricci³

et al. 2022

Preprint

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This work reports on the development and numerical implementation of the linear electromagnetic gyrokinetic (GK) model in a tokamak flux-tube geometry using a moment approach based on the expansion of the perturbed distribution function on a velocity-space Hermite-Laguerre polynomials basis. A hierarchy of equations of the expansion coefficients, referred to as the gyro-moments (GM), is derived. We verify the numerical implementation of the GM hierarchy in the collisionless limit by performing a comparison with the continuum GK code GENE, recovering the linear properties of the ion-temperature gradient, trapped electron, kinetic ballooning, and microtearing modes, as well as the collisionless damping of zonal flows. A careful analysis of the distribution functions and ballooning eigenmode structures is performed. The present investigation reveals the ability of the GM approach to describe fine velocity-space scale structures appearing near the trapped and passing boundary and kinetic effects associated with parallel and perpendicular particle drifts. In addition, the effects of collisions are studied using advanced collision operators, including the GK Coulomb collision operator. The main findings are that the number of GMs necessary for convergence decreases with plasma collisionality and is lower for pressure gradient-driven modes, such as in H-mode pedestal regions, compared to instabilities driven by trapped particles and magnetic gradient drifts often found in the core. The accuracy of approximations often used to model collisions (relative to the GK Coulomb operator) is studied in the case of trapped electron modes, showing differences between collision operator models that increase with collisionality and electron temperature gradient. Such differences are not observed in other edge microinstabilities, such as microtearing modes. The importance of a proper collision operator model is also pointed out by analyzing the collisional damping of geodesic acoustic modes and zonal flows. The present linear analysis demonstrates that the GM approach efficiently describes the plasma dynamics for typical parameters of the tokamak boundary, ranging from the low-collisionality banana H-mode to the highcollisionality Pfirsch-Schlüter conditions.

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Linear Theory of Electron-Plasma Waves at Arbitrary Collisionality

Jorge¹,

Ricci²,

Brunner³

et al. 2018

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P. Ricci

Moment-Based Approach to the Flux-Tube linear Gyrokinetic Model

Linear Theory of Electron-Plasma Waves at Arbitrary Collisionality

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