Resolving Space Plasma Species With Electrostatic Analyzers

Nicolaou, Georgios; Haythornthwaite, Richard; Coates, A. J.

doi:10.3389/fspas.2022.861433

Cited by 2 publications

(2 citation statements)

References 39 publications

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“…Since an α ‐particle has four times the mass of a proton and carries twice the charge of a proton, the energy per charge ( E α / q α ) of an α ‐particle with the same speed as a proton is twice the energy‐per‐charge ( E p / q p ) of that proton. Consequently, the speed of an α ‐particle that is detected at the same energy‐per‐charge as a proton (i.e., when E α / q α = E p / q p ) can be assumed by a factor

\sqrt{2}

smaller than the speed of the proton (Nicolaou et al., 2022).…”

Section: Methodsmentioning

confidence: 99%

The Impact of Non‐Equilibrium Plasma Distributions on Solar Wind Measurements by Vigil's Plasma Analyser

Zhang,

Verscharen,

Nicolaou

2024

Space Weather

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In order to protect society from space weather impacts, we must monitor space weather and obtain early warnings for extreme events if possible. For this purpose, the European Space Agency is currently preparing to launch the Vigil mission toward the end of this decade as a space‐weather monitor at the fifth Lagrange point of the Sun–Earth system. Vigil will carry, amongst other instruments, the Plasma Analyser (PLA) to provide quasi‐continuous measurements of solar wind ions. We model the performance of the PLA instrument, considering typical solar wind plasma conditions, to compare the expected observations of PLA with the assumed input conditions of the solar wind. We evaluate the instrument performance under realistic, non‐equilibrium plasma conditions, accounting for temperature anisotropies, proton beams, and the contributions from α‐particles. We examine the accuracy of the instrument's performance over a range of input solar wind moments. We identify sources of potential errors due to non‐equilibrium plasma conditions and link these to instrument characteristics such as its angular and energy resolution and its field of view. We demonstrate the limitations of the instrument and potential improvements such as applying ground‐based fitting techniques to obtain more accurate measurements of the solar wind even under non‐equilibrium plasma conditions. The use of ground processing of plasma moments instead of on‐board processing is crucial for the extraction of reliable measurements.

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\sqrt{2}

smaller than the speed of the proton (Nicolaou et al., 2022).…”

Section: Methodsmentioning

confidence: 99%

The Impact of Non‐Equilibrium Plasma Distributions on Solar Wind Measurements by Vigil's Plasma Analyser

Zhang,

Verscharen,

Nicolaou

2024

Space Weather

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show abstract

“…Nanotechnologies and biology [20][21][22][23][24][25][26][27][28][29][30][31][32][33][34][35][36][37][38][39]. In the space plasma explorations [40][41][42][43][44][45][46][47][48][49][50]. Next we consider some applications of the electron spectroscopy devices for exploration of directed near-Earth space charged particle streams.…”

Section: Introductionmentioning

confidence: 99%

High-Resolving Conical Electrostatic Energy Analyzer for Plasma Flows Investigations

2024

Space Sci J

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The paper presents numerically calculated model of the new electrostatic energy analyzer based on a bounded conical field, separating and focusing a flow of charged particles, having velocity parallel or nearly parallel to the axis of symmetry of the analyzer. The calculations show second order focusing with very large acceptance aperture, what is important for obtaining accurate data of intensity, energy characteristics, main direction of space particle flows, which are characterized by very low density. These data are important for monitoring and forecasting abnormal electromagnetic events over the Earth and nearEarth space which can effect on normal operation and even on the safety of the crew of space station. A combination of high energy resolution with large aperture, simple compact design and control and remote fine tuning makes the instrument very promising for space technologies

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Resolving Space Plasma Species With Electrostatic Analyzers

Cited by 2 publications

References 39 publications

The Impact of Non‐Equilibrium Plasma Distributions on Solar Wind Measurements by Vigil's Plasma Analyser

The Impact of Non‐Equilibrium Plasma Distributions on Solar Wind Measurements by Vigil's Plasma Analyser

High-Resolving Conical Electrostatic Energy Analyzer for Plasma Flows Investigations

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