A precessing jet from an active galactic nucleus drives gas outflow from a disk galaxy

February 2026 • 2026Sci...391..911K

Authors • Kader, Justin A. • U, Vivian • Barcos-Muñoz, Loreto • Bianchin, Marina • Song, Yiqing • Linden, Sean T. • Canalizo, Gabriela • Aravindan, Archana • Privon, George C. • Díaz-Santos, Tanio • Hayward, Christopher • Malkan, Matthew A. • Armus, Lee • McGurk, Rosalie C. • Rich, Jeffrey A. • Medling, Anne M. • Stierwalt, Sabrina • Max, Claire E. • Evans, Aaron S. • Agostino, Christopher J. • Charmandaris, Vassilis • Gao, Tianmu • Howell, Justin H. • Inami, Hanae • Lai, Thomas S.-Y. • Larson, Kirsten L. • Martin, Christopher D. • Matuszewski, Mateusz • Mazzarella, Joseph M. • Neill, James D. • Prusinski, Nikolaus Z. • Remigio, Raymond • Sanders, David B. • Surace, Jason

Abstract • To reproduce observed galaxy properties, cosmological simulations require that massive galaxies experience feedback from active galactic nuclei, which regulates star formation within those galaxies. However, the energetics and timescales of these feedback processes are poorly constrained. We combined optical, infrared, submillimeter, and radio observations of the active galaxy VV 340a, which is hosting a low-power jet launched from a supermassive black hole at its center. We found that the jet undergoes precession, with a period of (8.2 ± 5.5) × 10⁵ years, and drives an outflow of gas at a rate of 19.4 ± 7.9 solar masses per year. The jet shocks the gas, producing highly ionized plasma that extends several kiloparsecs from the nucleus. The outflow ejects sufficient gas from the galaxy to influence its star-formation rate.

Links

• PDF https://www.science.org/doi/epdf/10.1126/science.adp8989
• ELECTR https://doi.org/10.1126%2Fscience.adp8989
• PREPRINT http://arxiv.org/abs/2601.08791