Rubin-LSST

LOFT as a discovery machine for jetted Tidal Disruption Events

(2015)

Authors:

EM Rossi, I Donnarumma, R Fender, P Jonker, S Komossa, Z Paragi, I Prandoni, L Zampieri

The physics of accretion-ejection with LOFT

(2015)

Authors:

P Casella, R Fender, M Coriat, E Kalemci, S Motta, J Neilsen, G Ponti, M Begelman, T Belloni, E Koerding, TJ Maccarone, P-O Petrucci, J Rodriguez, J Tomsick, S Bhattacharyya, S Bianchi, M Del Santo, I Donnarumma, P Gandhi, J Homan, P Jonker, M Kalamkar, J Malzac, S Markoff, S Migliari, J Miller, J Miller-Jones, J Poutanen, R Remillard, DM Russell, P Uttley, A Zdziarski

On the Fe K absorption – accretion state connection in the Galactic Centre neutron star X-ray binary AX J1745.6-2901

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 446:2 (2015) 1536-1550

Authors:

G Ponti, S Bianchi, T Muñoz-Darias, B De Marco, T Dwelly, RP Fender, K Nandra, N Rea, K Mori, D Haggard, CO Heinke, N Degenaar, T Aramaki, M Clavel, A Goldwurm, CJ Hailey, GL Israel, MR Morris, A Rushton, R Terrier

Halo abundances within the cosmic web

Monthly Notices of the Royal Astronomical Society Oxford University Press 447:3 (2015) 2683-2695

Authors:

David Alonso, E Eardley, JA Peacock

Abstract:

We investigate the dependence of the mass function of dark-matter haloes on their environment within the cosmic web of large-scale structure. A dependence of the halo mass function on large-scale mean density is a standard element of cosmological theory, allowing mass-dependent biasing to be understood via the peak-background split. On the assumption of a Gaussian density field, this analysis can be extended to ask how the mass function depends on the geometrical environment: clusters, filaments, sheets and voids, as classified via the tidal tensor (the Hessian matrix of the gravitational potential). In linear theory, the problem can be solved exactly, and the result is attractively simple: the conditional mass function has no explicit dependence on the local tidal field, and is a function only of the local density on the filtering scale used to define the tidal tensor. There is nevertheless a strong implicit predicted dependence on geometrical environment, because the local density couples statistically to the derivatives of the potential. We compute the predictions of this model and study the limits of their validity by comparing them to results deduced empirically from N-body simulations. We have verified that, to a good approximation, the abundance of haloes in different environments depends only on their densities, and not on their tidal structure. In this sense we find relative differences between halo abundances in different environments with the same density which are smaller than ∼13 per cent. Furthermore, for sufficiently large filtering scales, the agreement with the theoretical prediction is good, although there are important deviations from the Gaussian prediction at small, non-linear scales. We discuss how to obtain improved predictions in this regime, using the ‘effective-universe’ approach.

Selection of Burst-like Transients and Stochastic Variables Using Multi-Band Image Differencing in the Pan-STARRS1 Medium-Deep Survey

(2015)

Authors:

S Kumar, S Gezari, S Heinis, R Chornock, E Berger, A Rest, ME Huber, RJ Foley, G Narayan, GH Marion, D Scolnic, A Soderberg, A Lawrence, CW Stubbs, RP Kirshner, AG Riess, SJ Smartt, K Smith, WM Wood-Vasey, WS Burgett, KC Chambers, H Flewelling, N Kaiser, N Metcalfe, PA Price, JL Tonry, RJ Wainscoat