Theoretical astrophysics and plasma physics at RPC

The spectral evolution of disc dominated tidal disruption events

Monthly Notices of the Royal Astronomical Society Oxford University Press 492:4 (2020) 5655-5674

Authors:

Andrew Mummery, Steven A Balbus

Abstract:

We perform a detailed numerical and analytical study of the properties of observed light curves from relativistic thin discs, focussing on observational bands most appropriate for comparison with tidal disruption events (TDEs). We make use of asymptotic expansion techniques applied to the spectral emission integral, using time-dependent disc temperature profiles appropriate for solutions of the relativistic thin disc equation. Rather than a power law associated with bolometric disc emission L ∼ t−n, the observed X-ray flux from disc-dominated TDEs will typically have the form of a power law multiplied by an exponential (see equation 91). While precise details are somewhat dependent on the nature of the ISCO stress and disc-observer orientational angle, the general form of the time-dependent flux is robust and insensitive to the exact disc temperature profile. We present numerical fits to the UV and X-ray light curves of ASASSN-14li, a particularly well observed TDE. This modelling incorporates strong gravity optics. The full 900 d of ASASSN-14li X-ray observations are very well fit by a simple relativistic disc model, significantly improving upon previous work. The same underlying model also fits the final 1000 d of ASASSN-14li observations in three different UV bandpasses. Finally, we demonstrate that the analytic formulae reproduce the properties of full numerical modelling at both UV and X-ray wavelengths with great fidelity.

Linear pedestal ETG

University of Oxford (2020)

Authors:

Jason Parisi, Felix I Parra Diaz, Colin M Roach, Michael Barnes, David R Hatch, William Dorland, Plamen Ivanov, Jon C Hillesheim, Nobuyuki Aiba, Carine Giroud, Justin Ball

Abstract:

Refer to readme.pdf in the repository.

MRI乱流におけるAlfven的揺動と圧縮的揺動の散逸比

(2020) 824-824

Authors:

川面 洋平, A Schekochihin, MA Barnes, W Dorland, SA Balbus

Formation and Evolution of Compact Object Binaries in AGN Disks

(2019)

Authors:

Hiromichi Tagawa, Zoltan Haiman, Bence Kocsis

Anisotropic Mass Segregation in Rotating Globular Clusters

ASTROPHYSICAL JOURNAL American Astronomical Society 887:2 (2019) ARTN 123

Authors:

Akos Szolgyen, Yohai Meiron, Bence Kocsis

Abstract:

We investigate the internal dynamics of anisotropic, rotating globular clusters with a multimass stellar population by performing new direct N-body simulations. In addition to the well-known radial mass segregation effect, where heavy stars and stellar remnants sink toward the center of the cluster, we find a mass segregation in the distribution of orbital inclinations as well. This newly discovered anisotropic mass segregation leads to the formation of a disk-like structure of massive objects near the equatorial plane of a rotating cluster. This result has important implications on the expected spatial distribution of black holes in globular clusters.