Synchrotron Radiation Source
53°20′35″N 02°38′26″W / 53.34306°N 2.64056°W
The Synchrotron Radiation Source (SRS) at the Daresbury Laboratory in Cheshire, England was the first second-generation synchrotron radiation source to produce X-rays.[1][2][3] The research facility provided synchrotron radiation to a large number of experimental stations[4] and had an operating cost of approximately £20 million per annum.[5][3]
SRS had been operated by the Science and Technology Facilities Council. The SRS was closed on 4 August 2008 after 28 years of operation.[6][7]
History
Following the closure of the NINA synchrotron, construction of the facility commenced in 1975 and the first experiments were completed using the facility by 1981.[8][9]
In 1986 the storage was upgraded with additional focusing to increase the output brightness, the new 'lattice' being termed the HBL (High Brightness Lattice).
Design and evolution
Like all second-generation sources, the SRS was designed to produce synchrotron radiation principally from its dipole magnets, but the initial design foresaw the use of a high-field insertion device to provide shorter-wavelength electromagnetic radiation to particular users.
The first storage ring design was a 2 GeV FODO lattice consisting of alternating focussing and defocussing quadrupoles, with one dipole following every quadrupole (i.e. two dipoles per repeating cell), giving a natural beam emittance of around 1000 nm-rad with 16 cells.
The HBL upgrade implemented in 1986 increased the total number of quadrupoles to 32, whilst retaining the same number of cells and geometry, and reduced the operating emittance to around 100 nm-rad in the so-called 'HIQ' (high tune) configuration. A 'LOQ' (low tune) configuration was also provided, to allow the efficient storage of one intense bunch of electrons (instead of up to 160), to provide radiation bursts at 3.123 MHz (the revolution frequency of the electrons, corresponding to the 96 m circumference).[10]
Scientific Output and Achievements
The SRS supported a broad range of science, including pioneering work on X-ray diffraction, structural molecular biology, surface physics and chemistry, materials science and upper atmosphere physics.[11] Following its closure, a detailed study of the economic impact of the SRS was made.[3]
Two Nobel Prizes in Chemistry have been received by scientists who performed part of their prize-winning research using the SRS: Sir John E. Walker in 1997 for his contribution to the understanding of the synthesis of ATP[12] (Adenosine Triphosphate), a key component of the body’s energy transport, and Sir Venki Ramakrishnan for his work on the structure and function of the Ribosome,[13] the molecular machine that constructs proteins from ‘instructions’ coded in mRNA. Over 5000 academic papers were produced.[3]
See also
References
- ^ "History". lightsources.org. Retrieved 20 July 2017.
- ^ Ian Munro (23 February 2010). "Joule Lecture: The Saga of X-rays and Synchrotron Radiation in the North West". Manchester Memoirs. 148. Retrieved 20 July 2017.
- ^ a b c d Science & Technology Facilities Council (2010). New Light on Science: The Social & Economic impact of the Daresbury Synchrotron Radiation Source, (1981-2008). Retrieved 20 July 2017.
- ^ "STATIONS". Synchrotron Radiation Source. Archived from the original on 26 March 2010. Retrieved 2007-10-13.
- ^ "SRS Facts and Figures". Synchrotron Radiation Source. Archived from the original on 2 June 2010. Retrieved 2007-10-13.
- ^ Qureshi, Yakub (4 September 2008), Switched off...lens that gave us iPod, Manchester Evening News, retrieved 2008-08-04
- ^ After two million hours of science a British world first bids farewell, Synchrotron Radiation Source, archived from the original on 2008-12-18, retrieved 2009-01-10
- ^ Celebrate 25 years of the SRS, Synchrotron Radiation Source, archived from the original on 2007-10-19, retrieved 2007-10-13
- ^ Science & Technology Facilities Council (2010). "ch13". New Light on Science: The Social & Economic impact of the Daresbury Synchrotron Radianiot Source, (1981-2008). Retrieved 20 July 2017.
- ^ Performance of the Daresbury SRS With An Increased Brilliance Optic (PDF), CERN, retrieved 2009-08-11
- ^ "SRS history". www.synchrotron.org.uk. Retrieved 2020-02-18.
- ^ "The Nobel Prize in Chemistry 1997". NobelPrize.org. Retrieved 2020-02-18.
- ^ "The Nobel Prize in Chemistry 2009". NobelPrize.org. Retrieved 2020-02-18.