# Collaborative Research: Elucidating the Composition of our Solar System's Most Primitive Materials - Comprehensive Chemical Analysis of a Halley-Type Comet > **NSF 01002526DB NSF RESEARCH & RELATED ACTIVIT** · Catholic University of America (DC) · $381,431 ## Abstract Radio/submillimeter spectroscopy is a sensitive probe of the gases present in cometary atmospheres (comae), including molecules not readily detected at other wavelengths. Such observations provide a unique window into the composition of our planet-forming disk. This collaborative research project will focus on analyzing observations of the Halley-type comet 12P/Pons-Brooks (one of the most active comets of the last decade), using the Atacama Large Millimeter/submillimeter Array (ALMA). The resulting data will represent a major advance in sensitivity and molecular coverage, including spectral/spatial maps of at least 26 different molecules. The project will provide postdoctoral training in cometary science and astrochemical modeling, with an emphasis on support for postdoc professional development and scientific growth. The project will take advantage of the unrivaled sensitivity and resolution of ALMA data, implementing updated radiative transfer models to produce: (1) nucleus (and coma) mixing ratios and production scale lengths for > 26 different molecular species; (2) spatial maps for multiple gases, including organic molecules, S-bearing species and molecules of possible pre-biotic relevance; (3) isotopic ratios in key cosmogonic indicators (D/H, 14N/15N) to probe the history of cometary matter; (4) coma physical properties, including temperature, density, velocity structure and jet morphologies, to test our understanding of cometary outflows. Coma gas sources and ## Key facts - **NSF award ID:** 2509096 - **Awardee organization:** Catholic University of America (DC) - **SAM.gov UEI:** C31ES3WEAVQ5 - **PI:** Martin A Cordiner - **Primary program:** 01002526DB NSF RESEARCH & RELATED ACTIVIT - **All programs:** THEORETICAL & COMPUTATIONAL ASTROPHYSICS, OBSERVATIONAL ASTRONOMY - **Estimated total:** $381,431 - **Funds obligated:** $381,431 - **Transaction type:** Standard Grant - **Period:** 09/01/2025 → 08/31/2028 ## Primary source NSF Award Search: https://www.nsf.gov/awardsearch/showAward?AWD_ID=2509096 ## Citation > US National Science Foundation, Award 2509096, Collaborative Research: Elucidating the Composition of our Solar System's Most Primitive Materials - Comprehensive Chemical Analysis of a Halley-Type Comet. Retrieved via AI Analytics 2026-06-09 from https://api.ai-analytics.org/grant/nsf/2509096. Licensed CC0. --- *[NSF Awards dataset](/datasets/nsf-awards) · CC0 1.0*