GO Science

PRIMA
GO Science Program

75 % of PRIMA's science time will be dedicated to general observers (GOs). The astronomy community and the PRIMA team have collaborated to develop a number of example cases. 76 of these, ranging from comets to cosmology are published in the PRIMA General Observer (GO) science book. Topics include:

Cosmic Ecosystems Through gas accretion and powerful outflows, galaxies are intimately connected to the cosmic web. PRIMA's sensitivity to the physical conditions of the gas and dust in and around galaxies will unlock the energetics and dynamics of all steps in the galactic baryon cycle. Deep imaging and spectroscopy will uncover accreting gas and cool dense winds invisible to other observatories.

[Back to top]

Revealing the Role of Cosmic Magnetic Fields Magnetic fields are believed to affect the rate, efficiency, and mass function of star formation. PRIMA’s polarimeter channels will map magnetic fields in the Magellanic clouds and other nearby galaxies. With resolution reaching down to protostellar core scales while spanning the full extent of these galaxies, PRIMA will quantify the influence of magnetic fields in star formation and galaxy evolution.

[Back to top]

Star Formation in the Time Domain Protostellar growth is episodic. PRIMA's sensitive imager will provide time-resolved, far-IR measurements of the total mass accretion rate in 1000 protostars across the stellar mass range. This will, for the first time, reveal the dominant stellar accretion modes from low- to high-mass stars, uniquely constraining star formation theory.

[Back to top]

Exoplanets and Brown Dwarf Atmospheres The study of exoplanet and brown dwarf atmospheres put our solar system in context. PRIMA far-IR spectroscopy of the atmospheres of close-in, giant exoplanets and isolated brown dwarf will yield further insights to their formation and evolution.

[Back to top]

Origins of Earth's Water Water is essential for life as we know it. The origin of Earth's water may have been integral to its formation, or it may have been delivered post-formation via comet impacts. PRIMA spectroscopy of comets and asteroids will discriminate among these theories as well as those describing planet formation in general via isotopic composition analyses of bodies throughout the solar system.

[Back to top]

Discovery Potential A cryogenic observatory for the far-IR offers a gain in sensitivity comparable to viewing a dark night sky at noon. Every aspect of PRIMA is designed to maximize sensitivity and efficiency, resulting in a Probe-class observatory for the entire community that covers the rich, but poorly explored spectral band between the mid-infrared and submillimeter.

[Back to top]