The Solar EruptioN Integral Field Spectrograph.
Vicki L HerdePhillip C ChamberlinDon SchmitAdrian DawRyan O MilliganVanessa PolitoSouvik BoseSpencer BoyajianParis BuedelWill EdgarAlex GebbenQian GongRoss JacobsenNicholas NellBennet SchwabAlan SimsDavid SummersZachary TurnerTrace ValadeJoseph WallacePublished in: Solar physics (2024)
The Solar eruptioN Integral Field Spectrograph (SNIFS) is a solar-gazing spectrograph scheduled to fly in the summer of 2025 on a NASA sounding rocket. Its goal is to view the solar chromosphere and transition region at a high cadence (1 s) both spatially ( 0.5 ″ ) and spectrally (33 mÅ) viewing wavelengths around Lyman alpha (1216 Å), Si iii (1206 Å), and O v (1218 Å) to observe spicules, nanoflares, and possibly a solar flare. This time cadence will provide yet-unobserved detail about fast-changing features of the Sun. The instrument is comprised of a Gregorian-style reflecting telescope combined with a spectrograph via a specialized mirrorlet array that focuses the light from each spatial location in the image so that it may be spectrally dispersed without overlap from neighboring locations. This paper discusses the driving science, detailed instrument and subsystem design, and preintegration testing of the SNIFS instrument.