Hengyue Zhang

Dynamical Masses and Ages of Sirius-like Systems

ArXiv 2303.08198 (2023)

Authors:

Hengyue Zhang, Timothy D Brandt, Rocio Kiman, Alexander Venner, Qier An, Minghan Chen, Yiting Li

Precise dynamical masses of new directly imaged companions from combining relative astrometry, radial velocities, and HIPPARCOS-Gaia eDR3 accelerations★★★

Astronomy & Astrophysics EDP Sciences 668 (2022) a140

Authors:

EL Rickman, E Matthews, W Ceva, D Ségransan, GM Brandt, H Zhang, TD Brandt, T Forveille, J Hagelberg, S Udry

Precise dynamical masses of new directly imaged companions from combining relative astrometry, radial velocities, and Hipparcos-Gaia eDR3 accelerations

ArXiv 2209.12957 (2022)

Authors:

EL Rickman, E Matthews, W Ceva, D Ségransan, GM Brandt, H Zhang, TD Brandt, T Forveille, J Hagelberg, S Udry

Cleaning Images with Gaussian Process Regression

ArXiv 2103.1225 (2021)

Authors:

Hengyue Zhang, Timothy D Brandt

Neural deprojection of galaxy stellar mass profiles

NeurIPS

Authors:

Yantovski-Barth, Hengyue Zhang, Martin Bureau

Abstract:

We introduce a neural approach to dynamical modeling of galaxies that replaces traditional imaging-based deprojections with a differentiable mapping. Specifically, we train a neural network to translate Nuker profile parameters into analytically deprojectable Multi Gaussian Expansion components, enabling physically realistic stellar mass models without requiring optical observations. We integrate this model into SuperMAGE, a differentiable dynamical modelling pipeline for Bayesian inference of supermassive black hole masses. Applied to ALMA data, our approach finds results consistent with state-of-the-art models while extending applicability to dust-obscured and active galaxies where optical data analysis is challenging.