
In a recently published paper in the journal Nature Astronomy, SOFIA (the Stratospheric Observatory for Infrared Astronomy) has confirmed that water exists in sunny craters on the moon from data they gathered from an initial test run back in August 2018 where astronomers were curious if they could aim the 2.7-meter infrared telescope (that flies inside a modified Boeing 747SP aircraft and travels up to 45,000 ft up in the atmosphere) at the moon instead of the usual dim objects they observe. The SOFIA telescope has to be transported above 99% of water vapor in Earth’s atmosphere because water vapor absorbs infrared radiation and makes ground-based infrared astronomy impossible.
All the colors that we see are contained within a small region termed “visible light” on a much larger spectrum referred to as the electromagnetic spectrum. Wavelength, which is a fundamental characteristic of light on the EM spectrum, is inversely proportional to energy. Thus, more energetic phenomena in the universe produce light with small wavelengths (UV light, X-rays, and gamma rays) whereas less energetic phenomena emit light with larger wavelengths (infrared, microwaves, and radio waves). Infrared light is typically produced from thermal processes, so it is a wavelength range best suited for looking at warm galactic dust, "hot Jupiters", and searching for signatures of water in the atmosphere of exoplanets. To their surprise, SOFIA was able to detect water signatures at a 6.1 micron wavelength using the Faint Object infraRed CAmera for the SOFIA Telescope (FORCAST) instrument while aimed at the sunny Clavius Crater, a large crater visible from Earth in the moon’s southern hemisphere. This has big implications for the planning of future missions to return to the moon such as NASA’s Artemis program, which hopes to put a woman and man on the moon again by 2024.
Oct 27, 2020
16 min

In this first installment of the BSPhysClass podcast, I cover the recent SOFIA flight above Europe, news of the first Interstellar comet detected, reasons why our black hole is 75x brighter than usual, and a bonus story about Sandia National Labs improving IR detectors.
Oct 1, 2019
18 min
