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Inicio  /  Aerospace  /  Vol: 10 Par: 12 (2023)  /  Artículo
ARTÍCULO
TITULO

The Large Imaging Spectrometer for Solar Accelerated Nuclei (LISSAN): A Next-Generation Solar ?-ray Spectroscopic Imaging Instrument Concept

Daniel F. Ryan    
Sophie Musset    
Hamish A. S. Reid    
Säm Krucker    
Andrea F. Battaglia    
Eric Bréelle    
Claude Chapron    
Hannah Collier    
Joel Dahlin    
Carsten Denker    
Ewan Dickson    
Peter T. Gallagher    
Iain Hannah    
Natasha L. S. Jeffrey    
Jana Ka?parová    
Eduard Kontar    
Philippe Laurent    
Shane A. Maloney    
Paolo Massa    
Anna Maria Massone    
Tomasz Mrozek    
Damien Pailot    
Melody Pallu    
Melissa Pesce-Rollins    
Michele Piana    
Illya Plotnikov    
Alexis Rouillard    
Albert Y. Shih    
David Smith    
Marek Steslicki    
Muriel Z. Stiefel    
Alexander Warmuth    
Meetu Verma    
Astrid Veronig    
Nicole Vilmer    
Christian Vocks and Anna Volparaadd Show full author list remove Hide full author list    

Resumen

Models of particle acceleration in solar eruptive events suggest that roughly equal energy may go into accelerating electrons and ions. However, while previous solar X-ray spectroscopic imagers have transformed our understanding of electron acceleration, only one resolved image of ?-ray emission from solar accelerated ions has ever been produced. This paper outlines a new satellite instrument concept?the large imaging spectrometer for solar accelerated nuclei (LISSAN)?with the capability not only to observe hundreds of events over its lifetime, but also to capture multiple images per event, thereby imaging the dynamics of solar accelerated ions for the first time. LISSAN provides spectroscopic imaging at photon energies of 40 keV?100 MeV on timescales of ?10 s with greater sensitivity and imaging capability than its predecessors. This is achieved by deploying high-resolution scintillator detectors and indirect Fourier imaging techniques. LISSAN is suitable for inclusion in a multi-instrument platform such as an ESA M-class mission or as a smaller standalone mission. Without the observations that LISSAN can provide, our understanding of solar particle acceleration, and hence the space weather events with which it is often associated, cannot be complete.

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