A European mission to explore how gravity, dark energy and dark matter shaped the evolution of the Universe soared into space from Cape Canaveral on 1 July.
A European mission to explore how gravity, dark energy and dark matter shaped the evolution of the Universe soared into space from Cape Canaveral on 1 July.
探花直播Euclid mission will finally uncover the mysteries of how these 鈥榙ark鈥 forces have shaped the cosmos that we see today, from life here on Earth, to our Sun, our Milky Way, our nearby galaxy neighbours, and the wider Universe beyond
Nicholas Walton
探花直播Euclid space telescope will map the 'dark Universe' by observing billions of galaxies out to 10 billion light-years, across more than a third of the sky, to gather data on how its structure has formed over its cosmic history.
Led by the European Space Agency (ESA) and a consortium of 2,000 scientists, including from the 探花直播 of Cambridge, Euclid will spend six years venturing through space with two scientific instruments: a UK-built visible imager (VIS) that will become one of the largest cameras ever sent into space, and a near-infrared spectrometer and photometer, developed in France. 探花直播mission is supported by funding from the UK Space Agency.
鈥淲atching the launch of Euclid, I feel inspired by the years of hard work from thousands of people that go into space science missions, and the fundamental importance of discovery 鈥 how we set out to understand and explore the Universe,鈥 said Chief Executive of the UK Space Agency, Dr Paul Bate. 鈥 探花直播UK Space Agency鈥檚 investment in Euclid has supported world-class science on this journey, from the development of the ground segment to the build of the crucial visible imager instrument, which will help humanity begin to uncover the mysteries of dark matter and dark energy.鈥
Euclid took off on board a SpaceX spacecraft from Cape Canaveral in Florida at 4.11pm (BST) on 1 July.
Cambridge鈥檚 Institute of Astronomy team has been involved in Euclid since 2010, supporting development of the astrometric calibration pipeline for the optical image data from Euclid, ensuring that the positions of the billions of sources to be imaged by Euclid can be determined to exquisite accuracy.
鈥淒ark energy and dark matter fundamentally govern the formation and evolution of our Universe,鈥 said Dr Nicholas Walton from the Institute of Astronomy. 鈥 探花直播Euclid mission will finally uncover the mysteries of how these 鈥榙ark鈥 forces have shaped the cosmos that we see today, from life here on Earth, to our Sun, our Milky Way, our nearby galaxy neighbours, and the wider Universe beyond.鈥
探花直播Science and Technology Facilities Council (STFC) also contributed to design and development work on Euclid instrumentation and provided funding to UK astronomy teams who will analyse the data returned from the mission about the physics responsible for the observed accelerated expansion of the Universe.听
鈥淭his is a fantastic example of close collaboration between scientists, engineers, technicians, and astronomers across Europe working together to tackle some of the biggest questions in science,鈥 said Mark Thomson, Executive Chair at STFC.
UK Space Agency funding for the Euclid mission is divided between teams at 探花直播 College London, 探花直播Open 探花直播, 探花直播 of Cambridge, 探花直播 of Edinburgh, 探花直播 of Oxford, 探花直播 of Portsmouth and Durham 探花直播.
探花直播wider Euclid Consortium includes experts from 300 organisations across 13 European countries, the US, Canada and Japan.
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