O. Lopez scite author profile

O. Lopez

5Publications

19Citation Statements Received

236Citation Statements Given

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133

225

Affiliations

Auburn University, Yale University

Publications

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High-beta analytic equilibria in circular, elliptical, and D-shaped large aspect ratio axisymmetric configurations with poloidal and toroidal flows

Lopez

Guazzotto

2017

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The Grad-Shafranov-Bernoulli system of equations is a single fluid magnetohydrodynamical description of axisymmetric equilibria with mass flows. Using a variational perturbative approach [E. Hameiri, Phys. Plasmas 20, 024504 (2013)], analytic approximations for high-beta equilibria in circular, elliptical, and D-shaped cross sections in the high aspect ratio approximation are found, which include finite toroidal and poloidal flows. Assuming a polynomial dependence of the free functions on the poloidal flux, the equilibrium problem is reduced to an inhomogeneous Helmholtz partial differential equation (PDE) subject to homogeneous Dirichlet conditions. An application of the Green's function method leads to a closed form for the circular solution and to a series solution in terms of Mathieu functions for the elliptical case, which is valid for arbitrary elongations. To extend the elliptical solution to a D-shaped domain, a boundary perturbation in terms of the triangularity is used. A comparison with the code FLOW [L. Guazzotto et al., Phys. Plasmas 11(2), 604–614 (2004)] is presented for relevant scenarios.

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Stability of a tokamak plasma with diffuse toroidal rotation

Lopez

Guazzotto

2020

J. Plasma Phys.

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The present work considers the stability of a high- $\beta$ , large aspect ratio, circular plasma with diffuse profiles for the safety factor and the angular toroidal frequency (López & Guazzotto, Phys. Plasmas, vol. 24, 032501). An application of the Frieman–Rotenberg formalism results in a system of scalar eigenmode equations whose coupling is retained at the plasma–vacuum transition but is disregarded across the plasma column, which is a standard practice. The solution technique consists of a multidimensional shooting method for the poloidal harmonics; robust initial guesses are constructed by solving the dispersion relation in the static scenario with vanishing magnetic shear. Flow shear appears as a high- $\beta$ toroidal contribution, and we illustrate its destabilizing influence on $n=1$ external kink modes in the presence of ideal and resistive walls. Internal resonances are avoided by means of the selection of appropriate equilibrium parameters. The stabilizing influence of a finite positive average magnetic shear is also exemplified.

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Power-transfer and fixed-point analysis of sawtooth simulations of a current-carrying stellarator

et al. 2022

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Power-transfer and fixed-point analysis of previous NIMROD simulations (Roberds et al., Phys. Plasmas, vol. 23, issue 9, 2016, 092513) improved the understanding of the effect of 3D (non-axisymmetric equilibrium) magnetic fields on sawtooth oscillations in the Compact Toroidal Hybrid (CTH) experiment. Computing the locations of order-1 fixed points, their Greene's residues, and local values for the rotational transform results in a description of CTH sawteeth consistent with Kadomtsev's model. A power-transfer analysis quantifies the distribution of energy among toroidal Fourier modes and their nonlinear interactions. The Lorentz power transfer drives sawtooth growth, and it is unambiguously interpreted as the flow of energy from toroidal mode $n'$ to mode $n$ , catalysed by $\boldsymbol {B}_{n-n'}$ . It has been reported previously that the CTH sawtooth frequency increases with the 3D field strength. This is attributed to an increased growth rate of the internal kink that drives sawtooth oscillations. Here, 3D fields remove energy from the kink, eliminating the possibility that these fields are an additional energy source that drives growth. Instead, 3D fields catalyse energy transfer from large-to-small scales, where magnetic reconnection is stronger. It is proposed that this energy transfer increases the reconnection rate at small scales, which is consistent with the increased growth rate observed at higher 3D field strengths.

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Cyclotron heating due to a modulated electron beam in a mirror machine

Lopez

Siambis

1969

Plasma Phys.

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Implementation of an inexpensive cathodoluminescence and electron beam induced current image generator coupled to a scanning electron microscope

Benítez-Lara¹,

Cisneros²,

Bautista³

et al. 2021

J. Inst.

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In this work, implementation of a novelty cathodoluminescence and electron beam induced current image generator system for do in situ experiments in a scanning electron microscopy (SEM) is presented. The equipment is composed by one mechatronic system (MS) with interchangeable probes and digitalization system programed with Labview. Porous silicon and Eu2(WO4)3 microparticles were characterized in cathodoluminescense mode with luminescence peaks centered at 410 and 613 nm, respectively. For CL imaging, the emission signal is collected through a probe of nine optical fibers and transduced to an electrical signal via a photomultiplier tube (PMT). In other way, the configuration in EBIC mode was tested with commercial silicon monocrystalline solar cell to determine internal defects using a current mapping. However for EBIC imaging, the current is collected by two electrodes connected to a picoammeter synchronized with the electron beam. CL and EBIC images are compared with SE images and chemical elemental mapping images to correlate the emission and defects regions of the sample.

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O. Lopez

High-beta analytic equilibria in circular, elliptical, and D-shaped large aspect ratio axisymmetric configurations with poloidal and toroidal flows

Stability of a tokamak plasma with diffuse toroidal rotation

Power-transfer and fixed-point analysis of sawtooth simulations of a current-carrying stellarator

Cyclotron heating due to a modulated electron beam in a mirror machine

Implementation of an inexpensive cathodoluminescence and electron beam induced current image generator coupled to a scanning electron microscope

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