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ZVAR: Unlocking the Sky's Variability and Periodicity for 1.5 Billion Astronomical Objects

$575,000FY2025MPSNSF

California Institute Of Technology, Pasadena CA

Investigators

Abstract

Observations of the temporal variability of astrophysical objects are foundational for many areas of stellar and extragalactic astrophysics. The Zwicky Transient Facility (ZTF) is the leading large-area time domain sky survey with a particular emphasis on transient sources that change on day timescales. A research group at California Institute of Technology (Caltech) will significantly enhance the value of ZTF to the astronomy community by boosting its ability to study persistent variability on all timescales. The team will develop a publicly accessible repository of variability data for 1.5 billion objects: the ZTF Variability Archive or ZVAR. The ZVAR footprint includes a significant overlap with the region covered by new Vera C. Rubin Observatory, providing a valuable tool for early exploitation of the Rubin data. This project will directly support thesis-related activities for graduate students studying stellar variability as well as undergraduate students through programs such as Caltech’s Summer Undergraduate Research Fellowship Program (SURF). The project also exposes students to cutting edge techniques in data science, including high level data mining and extraction of meaningful results from these large datasets. ZVAR will contain a forced-photometry light curve and variability repository for 1.5 billion objects above -30 degrees declination. With a median of over 1600 observations per source, ZVAR will provide variability information on time scales from minutes to years in g, r and i-passbands and periodicity sensitivity on objects as faint as m ~22. The team will use Pan-STARRS and Gaia catalogs to determine the sky positions for the forced photometry. Sources in the repository will include metadata from Gaia and have links to other databases, such as spectra from Sloan Digital Sky Survey-V (SDSS-V). This project provides added value to a major prior NSF-supported project – ZTF – and extends its utility to the astronomical community. It will enable a broad range of astrophysical investigations of the stellar and extragalactic variable population, including studies of common envelope evolution, stellar outbursts, compact binaries, and orbital period changes, and even searches for the most massive nanohertz frequency gravitational wave sources. This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.

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ZVAR: Unlocking the Sky's Variability and Periodicity for 1.5 Billion Astronomical Objects · GrantIndex