Galaxy formation and evolution

On the Jacobi capture origin of binaries with applications to the Earth-Moon system and black holes in galactic nuclei

Monthly Notices of the Royal Astronomical Society Oxford University Press 518:4 (2022) 5653-5669

Authors:

Tjarda Boekholt, Connar Rowan, Bence Kocsis

Abstract:

Close encounters between two bodies in a disc often result in a single orbital deflection. However, within their Jacobi volumes, where the gravitational forces between the two bodies and the central body become competitive, temporary captures with multiple close encounters become possible outcomes: a Jacobi capture. We perform three-body simulations in order to characterize the dynamics of Jacobi captures in the plane. We find that the phase space structure resembles a Cantor-like set with a fractal dimension of about 0.4. The lifetime distribution decreases exponentially, while the distribution of the closest separation follows a power law with index 0.5. In our first application, we consider the Jacobi capture of the Moon. We demonstrate that both tidal captures and giant impacts are possible outcomes. The impact speed is well approximated by a parabolic encounter, while the impact angles follow that of a uniform beam on a circular target. Jacobi captures at larger heliocentric distances are more likely to result in tidal captures. In our second application, we find that Jacobi captures with gravitational wave dissipation can result in the formation of binary black holes in galactic nuclei. The eccentricity distribution is approximately superthermal and includes both prograde and retrograde orientations. We conclude that dissipative Jacobi captures form an efficient channel for binary formation, which motivates further research into establishing the universality of Jacobi captures across multiple astrophysical scales.

Lens Discovery in the Era of Wide-area Surveys

Proceedings of the International Astronomical Union Cambridge University Press (CUP) 18:S381 (2022) 35-37

Authors:

Philip Holloway, Philip J Marshall, Aprajita Verma

Physics of ULIRGs with MUSE and ALMA: The PUMA project

Astronomy & Astrophysics EDP Sciences 668 (2022) a45

Authors:

I Lamperti, M Pereira-Santaella, M Perna, L Colina, S Arribas, S García-Burillo, E González-Alfonso, S Aalto, A Alonso-Herrero, F Combes, A Labiano, J Piqueras-López, D Rigopoulou, P van der Werf

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

Unveiling the formation of NGC 2915 with MUSE: A counter-rotating stellar disk embedded in a disordered gaseous environment⋆

Astronomy & Astrophysics EDP Sciences 668 (2022) a179

Authors:

Yimeng Tang, Bojun Tao, Hong-Xin Zhang, Guangwen Chen, Yulong Gao, Zesen Lin, Yao Yao, Yong Shi, Xu Kong