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Incoherent Thomson scattering system for PHAse space MApping (PHASMA) experiment

Peiyun Shi, Prabhakar Srivastav, Cuyler Beatty, Ripudaman Singh Nirwan, Earl Scime

2021Review of Scientific Instruments23 citationsDOIOpen Access PDF

Abstract

A new incoherent Thomson scattering system measures the evolution of electron velocity distribution functions perpendicular and parallel to the ambient magnetic field during kinking of a single flux rope and merging of two flux ropes through magnetic reconnection. The Thomson scattering system provides sub-millimeter spatial resolution, sufficient to diagnose the several millimeters sized magnetic reconnection electron diffusion region in the PHAse Space MAppgin experiment. Due to the relatively modest plasma density ∼1019 m−3 and electron temperature ∼1 eV, stray light suppression is critical for these measurements. Two volume Bragg gratings are used in series as a notch filter with a spectral bandwidth <0.1 nm in the collection branch. A CCD with a Gen III intensifier with peak quantum efficiency >47% is used as the detector in a 1.3 m spectrometer. Preliminary results of gun plasma electron temperature will be reported and compared with measurements obtained from a triple Langmuir probe.

Topics & Concepts

Thomson scatteringPhysicsPlasma diagnosticsElectron temperatureOpticsLangmuir probePlasmaScatteringElectron densityAtomic physicsNuclear physicsPlasma Diagnostics and ApplicationsIonosphere and magnetosphere dynamicsAtomic and Molecular Physics