P. Charles scite author profile

ThunderKAT is the image-plane transients programme for MeerKAT. The goal as outlined in 2010, and still today, is to find, identify and understand high-energy astrophysical processes via their radio emission (often in concert with observations at other wavelengths). Through a comprehensive and complementary programme of surveying and monitoring Galactic synchrotron transients (across a range of compact accretors and a range of other explosive phenomena) and exploring distinct populations of extragalactic synchrotron transients (microquasars, supernovae and possibly yet unknown transient phenomena) -both from direct surveys and commensal observations -we will revolutionise our understanding of the dynamic and explosive transient radio sky. As well as performing targeted programmes of our own, we have made agreements with the other MeerKAT large survey projects (LSPs) that we will also search their data for transients. This commensal use of the other surveys, which remains one of our key programme goals in 2016, means that the combined MeerKAT LSPs will produce by far the largest GHz-frequency radio transient programme to date.

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Lithium in black hole binaries: the case of X-ray Nova Muscae 1991

Martín

Casares²,

Molaro

et al. 1996

New Astronomy

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Development in astronomy and space science in Africa

et al. 2018

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A concept for a superconducting tunnelling junction based spectrograph

Cropper¹,

Barlow²,

Perryman³

et al. 2003

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We describe a multi‐order spectrograph concept suitable for 8‐m class telescopes, using the intrinsic spectral resolution of superconducting tunnelling junction detectors to sort the spectral orders. The spectrograph works at low orders, 1–5 or 1–6, and provides spectral coverage with a resolving power of R≃ 8000 from the atmospheric cut‐off at 320 nm to the long‐wavelength end of the infrared H or K band at 1800 nm or 2400 nm. We calculate that the spectrograph would provide substantial throughput and wavelength coverage, together with high time resolution and sufficient dynamic range. The concept uses currently available technology, or technologies with short development horizons, restricting the spatial sampling to two linear arrays; however, an upgrade path to provide more spatial sampling is identified. All of the other challenging aspects of the concept – the cryogenics, thermal baffling and magnetic field biasing – are identified as being feasible.

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P. Charles

The X-ray superbubble in Cygnus

ThunderKAT: The MeerKAT Large Survey Project for Image-Plane Radio Transients

Lithium in black hole binaries: the case of X-ray Nova Muscae 1991

Development in astronomy and space science in Africa

A concept for a superconducting tunnelling junction based spectrograph

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