Beecroft Institute for Particle Astrophysics and Cosmology

Photometric redshifts for the Kilo-Degree Survey Machine-learning analysis with artificial neural networks

ASTRONOMY & ASTROPHYSICS 616 (2018) ARTN A69

Authors:

M Bilicki, H Hoekstra, MJI Brown, V Amaro, C Blake, S Cavuoti, JTA de Jong, C Georgiou, H Hildebrandt, C Wolf, A Amon, M Brescia, S Brough, MV Costa-Duarte, T Erben, K Glazebrook, A Grado, C Heymans, T Jarrett, S Joudaki, K Kuijken, G Longo, N Napolitano, D Parkinson, C Vellucci, GA Verdoes Kleijn, L Wang

Simulated multi-tracer analyses with HI intensity mapping

(2018)

Authors:

Amadeus Witzemann, David Alonso, José Fonseca, Mario G Santos

Black hole interference patterns in flavor oscillations

Physical Review D American Physical Society 98:4 (2018) 043004

Authors:

J Alexandre, Katherine Clough

Abstract:

Motivated by neutrino astronomy, we consider a plane wave of coupled and massive flavors, scattered by a static black hole, and describe analytically and numerically the corresponding oscillation probability in the surrounding space. Both the interpretation as particles traveling along geodesics and as scattered waves are studied, and consistently show a nontrivial and potentially long range interference pattern, in contrast to the spatially uniform transition probability in a flat spacetime. We introduce a numerical method for studying the oscillations around black holes, which accounts for the full curved geometry and flavor wave mixing. Whilst limited to the region immediately around the black hole, this numerical approach has the potential to be used in more general contexts, revealing the complex interference patterns which defy analytic methods.

Stellar feedback and the energy budget of late-type Galaxies: Missing baryons and core creation

Monthly Notices of the Royal Astronomical Society Oxford University Press 480:4 (2018) 4287-4301

Authors:

Harley Katz, Harry Desmond, F Lelli, S McGaugh, A Di Cintio, C Brook, J Schombert

Abstract:

In a ΛCDM cosmology, galaxy formation is a globally inefficient process: it is often the case that far fewer baryons are observed in galaxy discs than expected from the cosmic baryon fraction. The location of these ‘missing baryons’ is unclear. By fitting halo profiles to the rotation curves of galaxies in the SPARC data set, we measure the ‘missing baryon’ mass for individual late-type systems. Assuming that haloes initially accrete the cosmological baryon fraction, we show that the maximum energy available from supernovae is typically not enough to completely eject these ‘missing baryons’ from a halo, but it is often sufficient to heat them to the virial temperature. The energy available from supernovae has the same scaling with galaxy mass as the energy needed to heat or eject the ‘missing baryons’, indicating that the coupling efficiency of the feedback to the ISM may be constant with galaxy virial mass. We further find that the energy available from supernova feedback is always enough to convert a primordial cusp into a core and has magnitude consistent with what is required to heat the ‘missing baryons’ to the virial temperature. Taking a census of the baryon content of galaxies with 109 < Mvir/M⊙ < 1012 reveals that ∼86 per cent of baryons are likely to be in a hot phase surrounding the galaxies and possibly observable in the X-ray, ∼7 per cent are in the form of cold gas, and ∼7 per cent are in stars.

Fifth force constraints from galaxy warps

(2018)

Authors:

Harry Desmond, Pedro G Ferreira, Guilhem Lavaux, Jens Jasche