Journal Publications
18. Ryu, T., Trani, A. A, Leigh, N. W. C., Tidal Disruption Events by Relatively Compact Supermassive Black Hole Binaries, submitted to MNRAS, 2022, arXiv:2202.07668 View Article
17. McKernan, B., Ford, K. E. S., Cantiello, M., Graham, M. J., Fermyn, A. S., Leigh, N. W. C., Ryu, T., Stern, D., Starfall: A heavy rain of stars in ‘turning on’ AGN, submitted to MNRAS, 2021, arXiv:2110.03741 View Article
16. T. Ryu, J. Krolik, T. Piran, The Impact of Shocks on the Vertical Structure of Eccentric Disks, ApJ 920, 130 (2021), arXiv:2015.09434 View Article
15. T. Ryu, J. Krolik, T. Piran, Measuring stellar and black hole masses of tidal disruption events, ApJ, 904.1, 73 (2020), arXiv:2007.13765 View Article
14. T. Ryu, J. Krolik, T. Piran, S. Noble, Tidal disruptions of main sequence stars – I. Observable Quantities and their Dependence on Stellar and Black Hole Mass, ApJ, 904.2, 98 (2020), arXiv: 2001.03501 View Article
13. T. Ryu, J. Krolik, T. Piran, S. Noble, Tidal disruptions of main sequence stars – II. Simulation methodology and stellar mass dependence of the character of full tidal disruptions, ApJ, 904.2, 99 (2020), arXiv: 2001.03502 View Article
12. T. Ryu, J. Krolik, T. Piran, S. Noble, Tidal disruptions of main sequence stars – III. Stellar mass dependence of the character of partial disruptions, ApJ, 904.2, 100 (2020), arXiv: 2001.03503 View Article
11. T. Ryu, J. Krolik, T. Piran, S. Noble., Tidal disruptions of main sequence stars – IV. Relativistic effects and dependence on black hole mass, ApJ, 904.2, 101 (2020), arXiv: 2001.03504 View Article
10. J. Krolik, T. Piran, T. Ryu, Tidal disruptions of main sequence stars – V. The Varieties of Disruptions, ApJ, 904.1, 68 (2020), arXiv: 2001.03234 View Article
9. T. Ryu, M. Zingale, R. Perna, Turbulence-driven thermal and kinetic energy fluxes in the atmospheres of hot Jupiters, MNRAS, (2018) 481.5517 ; arXiv:1806.07890 View Article
8. T. Ibragimov, N. Leigh, T. Ryu, T. Panurach, R. Perna, When do star clusters become multiple star systems? II. Towards a half-life formalism with four bodies, MNRAS, (2018) 477.4213 ; arXiv : 1803.05444. View Article
7. T. Ryu, R. Perna, Z. Haiman, J. Ostriker, N. Stone, Interactions between multiple supermassive black holes in galactic nuclei: a solution to the final parsec problem, MNRAS (2018) 473.3410 ; arXiv : 1709.06501. View Article
6. T. Ryu, N. Leigh, R. Perna, An analytic method for identifying dynamically-formed runaway stars, MNRAS, (2017) 470.2 ; arXiv : 1703.08538. View Article
5. T. Ryu, N. Leigh, R. Perna, Formation of runaway stars in a star-cluster potential, MNRAS, (2017) 470.3049 ; arXiv : 1703.08551. View Article
4. K. Belczynski, T. Ryu, R. Perna, E. Berti, T. L.Tanaka, T. Bulik, On the likelihood of detecting gravitational waves from Population III compact object binaries, MNRAS, (2017) 471.4702 ; arXiv : 1612.01524. View Article
3. T. Ryu, N. Leigh, R. Perna, Numerical study of the chaotic N = 4 problem in a background potential, MNRAS, (2017) 467.4447 ; arXiv : 1611.09358. View Article
2. T. Ryu, T. Tanaka, R. Perna, Z. Haiman, Intermediate-mass black holes from Population III remnants in the first galactic nuclei, MNRAS, (2016) 460, 4122 ; arXiv : 1603.08513. View Article
1. T. Ryu, T. Tanaka, R. Perna, Formation, disruption and energy output of Population III X-ray binaries, MNRAS, (2016) 456, 223 ; arXiv : 1509.05427. View Article
Proceedings
T. Ryu, T. Tanaka, R. Perna, Population III X-Ray Binaries, Frontier Research in Astrophysics II, Italy (FRAPWS2016). (https://pos.sissa.it/cgi-bin/reader/conf.cgi?confid=269) ; arXiv : 1710.08890. View Article