Your search keyword '"Larson, Kirsten L."' showing total 2 results

1. GOALS-JWST: Gas Dynamics and Excitation in NGC 7469 Revealed by NIRSpec.

Author

Bianchin, Marina, U, Vivian, Song, Yiqing, Lai, Thomas S.-Y., Remigio, Raymond P., Barcos-Muñoz, Loreto, Díaz-Santos, Tanio, Armus, Lee, Inami, Hanae, Larson, Kirsten L., Evans, Aaron S., Böker, Torsten, Kader, Justin A., Linden, Sean T., Charmandaris, Vassilis, Malkan, Matthew A., Rich, Jeff, Bohn, Thomas, Medling, Anne M., and Stierwalt, Sabrina

Subjects

INTEGRAL field spectroscopy, ACTIVE galaxies, SEYFERT galaxies, INTERSTELLAR medium, IONIZED gases, GAS dynamics, RADIO jets (Astrophysics), ACTIVE galactic nuclei

Abstract

We present new JWST NIRSpec integral field spectroscopy (IFS) data for the luminous infrared galaxy NGC 7469, a nearby (70.6 Mpc) active galaxy with a Seyfert 1.5 nucleus that drives a highly ionized gas outflow and a prominent nuclear star-forming ring. Using the superb sensitivity and high spatial resolution of the JWST instrument NIRSpec IFS, we investigate the role of the Seyfert nucleus in the excitation and dynamics of the circumnuclear gas. Our analysis focuses on the [Fe ii ], H2, and hydrogen recombination lines that trace the radiation/shocked-excited molecular and ionized interstellar medium around the active galactic nucleus (AGN). We investigate gas excitation through H2/Br γ and [Fe ii ]/Pa β emission line ratios and find that photoionization by the AGN dominates within the central 300 pc of the galaxy except in a small region that shows signatures of shock-heated gas; these shock-heated regions are likely associated with a compact radio jet. In addition, the velocity field and velocity dispersion maps reveal complex gas kinematics. Rotation is the dominant feature, but we also identify noncircular motions consistent with gas inflows as traced by the velocity residuals and the spiral pattern in the Pa α velocity dispersion map. The inflow is 2 orders of magnitude higher than the AGN accretion rate. The compact nuclear radio jet has enough power to drive the highly ionized outflow. This scenario suggests that the inflow and outflow are in a self-regulating feeding–feedback process, with a contribution from the radio jet helping to drive the outflow. [ABSTRACT FROM AUTHOR]

Published

2024

2. A COMPARISON OF THE MORPHOLOGICAL PROPERTIES BETWEEN LOCAL AND z ∼ 1 INFRARED LUMINOUS GALAXIES: ARE LOCAL AND HIGH-z (U)LIRGS DIFFERENT?

Author

Hung Chao-Ling, Sanders, D. B., Casey, Caitlin M., Koss, Michael, Larson, Kirsten L., Lee, Nicholas, Li, Yanxia, Lockhart, Kelly, Shih, Hsin-Yi, Barnes, Joshua E., Kartaltepe, Jeyhan S., and Smith, Howard A.

Subjects

GALAXIES, NOCTILUCENT clouds, GALAXY mergers, DATA quality, STAR formation

Abstract

Ultraluminous and luminous infrared galaxies (ULIRGs and LIRGs) are the most extreme star-forming galaxies in the universe and dominate the total star formation rate density at z > 1. In the local universe (z < 0.3), the majority of ULIRGs and a significant portion of LIRGs are triggered by interactions between gas-rich spiral galaxies, yet it is unclear if this is still the case at high z. To investigate the relative importance of galaxy interactions in infrared luminous galaxies, we carry out a comparison of optical morphological properties between local (U)LIRGs and (U)LIRGs at z = 0.5-1.5 based on the same sample selection, morphology classification scheme, and optical morphology at similar rest-frame wavelengths. In addition, we quantify the systematics in comparing local and high-z data sets by constructing a redshifted data set from local (U)LIRGs, in which its data quality mimics the high-z data set. Based on the Gini-M20 classification scheme, we find that the fraction of interacting systems decreases by ∼8% from local to z ≲ 1, and it is consistent with the reduction between local and redshifted data sets (). Based on visual classifications, the merger fraction of local ULIRGs is found to be ∼20% lower compared to published results, and the reduction due to redshifting is . Consequently, the differences of merger fractions between local and z ≲ 1 (U)LIRGs is only ∼17%. These results demonstrate that there is no strong evolution in the fraction of (U)LIRGs classified as mergers at least out to z ∼ 1. At z > 1, the morphology types of ∼30% of (U)LIRGs cannot be determined due to their faintness in the F814W band; thus, the merger fraction measured at z > 1 suffers from large uncertainties. [ABSTRACT FROM AUTHOR]

Published

2014