I am a CIERA Postdoctoral Fellow and Radio Astronomer at Northwestern University and a member of the Fast and Fortunate for FRB Follow-up (F4) collaboration. My research focuses on a broad range of astrophysical transients, ranging from fast radio bursts to superluminous supernovae and tidal disruption events. I'm particularly interested in studying the radio properties of these sources to answer key questions about their progenitors, outflows, and environments.
I received my PhD in Astronomy and Astrophysics from Harvard in 2021, and graduated from the University of New Mexico in 2015, where I worked as part of the Long Wavelength Array collaboration.
In my time off, I enjoy playing piano, video games, strength training, and carpentry. Though I am Chicago-bound for the time being, I’m a desert dweller at heart, hailing from the enchanted mountains of Northern New Mexico.
The millimeter transient sky represents an unexplored frontier in time-domain astronomy. Next-generation CMB experiments -- which will cover over half of the sky with near daily cadence -- will provide a unique opportunity to open a new window in the transient universe at millimeter wavelengths for the first time.Check it out
The mechanisms powering hydrogen-poor Type I superluminous supernovae are currently unknown, although prevailing theories suggest they are powered by the spin-down of millisecond magnetars. Radio observations of superluminous supernovae play a key role in unveiling the underlying energy sources which are otherwise obscured in the optical and UV where the majority of existing observations are focused. Our search for radio emission from a volume-limited sample of superluminous supernovae with the Very Large Array has so far led to the first detection of radio emission coincident with one of these events, and the deepest limits on associated magnetars from these sources to date.Check it out
Click here for a PDF version of my CV. (Updated December 2021)
Below you can find a list of my first-author publications. A complete listing of my publications can be found on the ADS.