Research

Link to ADS

Video summary for general audience

Throughout their lives, short-period exoplanets are strongly irradiated by their host stars. In the first few hundred million years of life, though, atomic species in a planet’s atmosphere are photoionized by the young hot stars' strong X-ray and extreme UV fluxes. This ionizing radiation from the star heats the planets’ atmospheres to up to 10,000 K and causes the gas to expand, accelerate from sub- to supersonic speeds, and outflow from the planet – essentially photoevaporating part or all of the planet’s atmosphere.

Understanding the atmospheric mass loss histories of these planets is essential to understanding evolution of exoplanets close to their stars. However, mass loss rates are not directly observable. They can only be inferred from models.

To that end, I have been developing Wind-AE, a fast new 1D forward model capable of computing mass loss rates and outflow structures with multifrequency (thru to X-ray) and metal capabilities. Wind-AE stands for ``wind atmospheric escape" and is a hydrodynamic, non-time-evolving photoevaporation relaxation code based on Murray-Clay et al. (2009).

I have previously worked on modeling protoplanetary disk heating in the presence of gaps, building an optics planetary spectrum visible color demo, predicting wide binary star mechanics as a proxy for Milky Way dark matter distribution, identifying radio quiet AGN SDSS 1356+1026's gas distribution, projecting TESS's tolerance to observing WASP-12b's orbital decay, detecting high redshift water masers in VLA data, and coding telescope-independent differential chromatic refraction corrections.

Sample of Publications

  • Broome, M.I., Murray-Clay, R., McCann, J., Owen, J.E., “Wind-AE: A Fast, Open-source 1D Photoevaporation Code with Metal and Multifrequency X-ray Capabilities”, ApJ, 2025 PDF
  • Broome, M.I., Shorttle, O., Kama, M., Booth, R.A., “Iceline Variations Driven by Protoplanetary Disc Gaps”, MNRAS, 2022 PDF
  • Lloyd, R.O.P., Schreyer, E., Rogers, J., Owen, J.E. , Broome, M.I., et al., “Hydrogen Escaping from a Pair of Exoplanets Smaller than Neptune”, Nature, 2025
  • Pai Asnodkar A., Wang J., Broome M., Huang C., Johnson M.C., Ilyin I., Strassmeier K.~G., et al.,"PEPSI's non-detection of escaping hydrogen and metal lines adds to the enigma of WASP-12 b"2024, MNRAS PDF
  • Patra, K.I., Winn, J.N.,..., and Broome, M.I.,“The Continuing Search for Evidence of Tidal Orbital Decay for Hot Jupiters”, ApJ, 2020 PDF