Part of a new £20 million investment by EPSRC in Nuclear Magnetic Resonance (NMR) equipment across UK institutions, the £8M, 1GHz NMR instrument at Warwick will provide new structural and dynamic information in chemistry, materials science and biology. It will add to our already significant NMR capabilities that include the 850MHz high-field solid-state NMR National Research Facility, which has been serving a broad academic and industrial user-base since 2010.

Professor Andrew Levan – who played a significant role in the internationally acclaimed 2017 gravitational waves discovery that demonstrated the origin of gold – is announced as a Finalist in the Physical Sciences & Engineering category, winning $30,000.

Professor Tom Marsh of the Astronomy and Astrophysics group has been awarded the prestigious Herschel Medal by the Royal Astronomical Society.

Professor Tom Marsh has undertaken pioneering research into close binary star systems for the last 30 years. Foremost among his numerous contributions has been the development of the Doppler Tomography technique, which was first described in a landmark paper in 1988 co-authored with Professor Keith Horne. The method uses phase-resolved spectra to construct two-dimensional velocity-space images, allowing astronomers to break the diffraction limit of conventional imaging.

Its application reveals the micro-arcsecond structure of close binary star systems, delivering accurate masses for white dwarfs, neutron stars and black holes. The technique unveils the detailed structure of accretion flows, including the intricate structure of accretion streams and hot-spot dynamics. It also led to the discovery of the theoretically anticipated spiralwave patterns that appear in accretion discs during dwarf nova outbursts. Doppler Tomography has been applied to hundreds of binary systems by numerous researchers, leading to a much improved understanding of accretion disc physics.

For these reasons, Professor Marsh is awarded the Herschel Medal.

New research, led by Dan Bayliss and Peter Wheatley, has identified an unusual planet NGTS-1b - the largest planet compared to the size of its companion star ever discovered in the universe.

Dan Bayliss, lead author of the research, commented: "The discovery of NGTS-1b was a complete surprise to us - such massive planets were not thought to exist around such small stars. This is the first exoplanet we have found with our new NGTS facility and we are already challenging the received wisdom of how planets form."

Peter Wheatley added, “Having worked for almost a decade to develop NGTS, it is thrilling to see it picking out new and unexpected types of planets."