The WEAVE spectrograph for the William Herschel Telescope at the Observatorio del Roque de los Muchachos has been officially inaugurated.
A spectrograph is a tool that splits light received by a telescope like a prism into different colours that researchers can analyse to learn more about objects such as stars which the light has emitted from.
The William Herschel Telescope Enhanced Area Velocity Explorer (WEAVE) is a next-generation spectrograph led by the UK and co-funded by the Science and Technology Facilities Council (STFC) and developed in part by STFC RAL Space. This is set to vastly improve the William Herschel Telescope and answer big astronomical questions.
The William Herschel Telescope is located at the Observatorio del Roque de los Muchachos in La Palma on the Canary Islands.
WEAVE is unique among multi-object spectrographs both in the sharpness of the images it produces and its ability to split light for as many as 960 celestial sources simultaneously.
Its high-resolution mode is five to 10 times greater than other available spectrographs, enabling more precise measurements of properties such as the abundance of chemical elements in cosmic light sources.
In the coming years, the Isaac Newton Group of Telescopes (ING), which is co-funded by STFC and includes the William Herschel Telescope, will make use of these advanced capabilities by assigning 70% of the time available on the telescope to the WEAVE survey.
The WEAVE survey is a set of eight major surveys organised by over 500 astronomers across Europe that will help answer questions such as:
- how our galaxy formed
- how the stars within the galaxy evolved
- how other galaxies were assembled
- what dark matter and dark energy are
Together, these surveys and other research programmes will require spectra of several million stars and galaxies, a goal only now obtainable thanks to WEAVE.
Professor Mark Thomson, STFC Executive Chair, who attended the inauguration event, said:
This is an important step forward for astronomy in Europe.
With the inauguration of WEAVE, we are at the start of a new era of exciting new observations from the William Herschel Telescope, with the potential to yield breakthroughs in astronomy and cosmology.
As one of the three main partners of the William Herschel Telescope, STFC is delighted to mark this occasion and acknowledge the outstanding work from the astronomers, engineers and the staff at the Isaac Newton Group of telescopes who have made this possible.
The inauguration ceremony was the largest ever gathering at the telescope and included:
- delegates from various funding agencies and research institutes, including STFC
- organisations involved in WEAVE’s design and construction
- the WEAVE science teams
The culmination of a decade of work, WEAVE was installed in May 2022 and obtained its first scientific data in December of the same year. During 2023, several of its observation modes have been fine-tuned and sufficient data has been obtained to verify its scientific capabilities.
WEAVE’s inauguration signifies the start of scientific exploitation, commencing with the WEAVE survey and scientific programmes using its large integral-field unit (LIFU) mode.
Learn more about the history and the science behind WEAVE.
The main components of WEAVE are:
- fibre-positioner, developed by the University of Oxford and Rutherford Appleton Laboratory (RAL) Space in the UK, with support from the Instituto de Astrofísica de Canarias (IAC)
- prime-focus corrector, designed by ING and SENER, provided by IAC in Spain and manufactured by SENER. Support from Konkoly Observatory (Hungary)
- lenses were polished by KiwiStar in New Zealand, funded from STFC, Netherlands Research School for Astronomy (NOVA), National Institute for Astrophysics (INAF) and ING, and mounted at SENER Aeroespacial (Spain) by SENER and ING
- spectrograph, built by NOVA in the Netherlands with optical design by RAL Space in the UK, optics manufactured at National Institute of Astrophysics, Optics and Electronics (Mexico) and support from the INAF and the IAC (Spain)
- field rotator, provided by IAC in Spain and manufactured by IDOM (Spain)
- optical fibres, provided by the Observatoire de Paris in France, manufactured in France, Canada and the US
- LIFU, built by NOVA (the Netherlands)
- charge coupled device detectors system, provided by Liverpool John Moores University in the UK
- data processing, analysis and archiving, led by the University of Cambridge (UK) with support from the IAC (Spain) and INAF (Italy)
- observation control system, built by the ING
The ING is operated on behalf of:
- STFC, UK
- Nederlanse Organisatie voor Wetenschappelijk Onderzoek, the Netherlands
- IAC, Spain
Source: UK Research and Innovation.
Launched in April 2018, UKRI is a non-departmental public body sponsored by the Department for Business, Energy and Industrial Strategy (BEIS). They bring together the seven disciplinary research councils, Research England, which is responsible for supporting research and knowledge exchange at higher education institutions in England, and the UK’s innovation agency, Innovate UK. For more details go to: https://www.ukri.org/