Canadian Synchrotron Radiation Facility


The Canadian Synchrotron Radiation Facility was Canada's national synchrotron facility from 1983–2005. Eventually consisting of three beamlines at the Synchrotron Radiation Center at the University of Wisconsin–Madison, USA, it served the Canadian synchrotron community until the opening of the Canadian Light Source in Saskatoon, Saskatchewan, finally ceasing operations in 2008.

Beginnings

In 1972 Mike Bancroft, a chemistry professor at the University of Western Ontario took part in a workshop organised by Bill McGowan on the uses of synchrotron radiation. At the time there were no synchrotron users in Canada, but as a result of contact established with then-director Ed Rowe at the meeting, he began work at the Synchrotron Radiation Center in Madison, Wisconsin, in 1975.
After several failed attempts were made to establish a synchrotron facility in Canada, Bancroft submitted a proposal to the National Research Council to build a Canadian beamline on the existing Tantalus synchrotron at SRC. Rowe had offered Bancroft 100% use of the beamline at no charge in perpetuity – Bancroft recalled that Rowe "had a soft spot for Canadians, he had some relatives from Canada, so he was extremely helpful". In 1978 the newly created NSERC awarded capital funding. This was not sufficient, and further funding was obtained from the UWO Academic Development Fund and NSERC the following year to complete two endstations. Bancoft would later say "We hoped to get more beamlines so we called it the Canadian Synchrotron Radiation Facility ". Bancroft was appointed Scientific Director, with Norman Sherman of NRC, who were to own and manage the facility, as manager. Operating money was initially provided by UWO, and Kim Tan was hired as the CSRF operations manager, to be based in Madison.

1978–1988: Grasshopper beamline

A Grasshopper-type monochromator – so-called as its mechanical drive arm resembled a grasshopper's hind legs – was ordered from Baker Engineering. This type of monochromator had been specifically designed for use with synchrotron radiation, and had proven easy to use, rugged and dependable at the existing SRC ring, Tantalus, and at the Stanford Synchrotron Radiation Laboratory. The beamline was installed within a year, and by late 1981 initial results showed the performance to be state of the art over the 50–500eV photon energy range.
Notable early work included X-ray microscopy on biological samples, and gas-phase spectroscopy with a very influential series of papers on noble gases. In the mid-1980s the number of publications steadily increased, as did operating funding through NRC and NSERC.
SRC was building a new synchrotron, Aladdin, and again Rowe offered CSRF 100% use of their beamline at no change in perpetuity on the new machine. Aladdin was seriously delayed, to the point where its funding was cut and future seemed highly uncertain.
With the new machine's performance improving, the decision was made to transfer the beamline to Aladdin in January 1986, some months before Aladdin's funding was restored. Bancroft later commented: "We were I think, the first beamline to transfer over, maybe we took a little bit of a risk because Aladdin's performance wasn't completely confirmed".
On Aladdin, with the higher X-ray intensity, new areas of science were opened up and the number of users increased mostly focused on X-ray absorption and photoemission spectroscopy of gases and solids. A photoemission spectrometer was donated by Ron Cavell of the University of Alberta and modifiied for high resolution gas-phase work.

1988–1998: DCM beamline

The X-ray intensity from Aladdin was much higher than on Tantalus, especially in the photon energy range up to 4000eV. These higher energies were potentially available using higher energy monochromators than the Grasshopper. In 1987, with Bancroft now chair of the Chemistry department at UWO he planned for a new beamline to cover the 1500-400eV energy range. A successful application was made to the recently formed Ontario Centre for Materials Research, and T.K. Sham was hired away from Brookhaven National Laboratory to design the beamline. A double crystal monochromator was selected, to be built by the Madison Physical Sciences Laboratory, using a cylindrical mirror with a novel bending mechanism to focus the X-ray beam after the monochromator. B.X. Yang, also from Brookhaven, was hired in 1988 to construct the beamline. The beamline was built in less than 18 months, and was officially opened in 1990.
The CSRF DCM beamline was regarded as particularly notable by SRC as it was the only beamline at the facility to reach energies higher than 1500 eV.
With two beamlines, use by the Canadian community increased, with more than 40 scientists from 10 Canadian institutions using the facility from 1990–1992. Funding was now stable and adequate, with no charges to users.

1998–2008: SGM beamline

The energy range from 300 to 1500 eV was still unavailable at CSRF, so in 1992 Bancroft applied to NSERC for a third beamline. Funding was obtained in 1994 and Brian Yates, who had been Bancroft's first synchrotron PhD student, was hired to construct the beamline. The design chosen was a so-called Dragon-type spherical grating monochromator, with a single grating covering the range 240–700 eV, designed and manufactured by MacPherson Inc. The beamline was somewhat delayed, but was operational for users in 1998. Adam Hitchcock of McMaster University donated a photoemission spectrometer for coincidence measurements.
For the last 10 years of its existence CSRF was managed by Walter Davidson of NRC, with T.K. Sham as Scientific Director. In 2004 the SGM beamline was and taken to Canada for use on the new Canadian facility, while the remaining two beamlines, 30 and 15 years old, were still working well in 2007.