![]() Arrange for delivery and return of samples/materials.Enter PUP 57398 as your proposal number when completing the Experiment Safety Assessment Form (ESAF).Complete requirements for APS access - APS User Checklist.Submit a Beamtime Request Form by the APS Proposal Deadline for the appropriate APS cycle.Request shifts against your active proposal:.Select CLS-APS or CLS-APS-Other from the options under Facility. Please note that successful proposals are valid by default for 2 years (6 APS cycles).Submit a proposal to CLS through the User Portal.Contact staff to discuss your research.If not awarded APS GUP beamtime, then you would be eligible to be considered for CLS PUP time based on score and availability of beamtime on requested beamline. If awarded beamtime, no additional access would be provided through the CLS PUP. Please note, if multiple requests are received from the same team through the APS GUP and process for the same APS Cycle, then APS GUP would have first consideration. The staff will also take into consideration scientific productivity as indicated by publications resulting from previous beamtime allocated at the APS via the CLS. ![]() Beamtime requests are prioritized each cycle based on peer review scores. The allocation and scheduling of shifts is managed by the staff. Prerequisite for applying for shifts at the APS is submitting a CLS Proposal to the CLS during its Call for Proposals.Īn active proposal must then request shifts by submitting a Beamtime Request form for the appropriate APS Cycle by the APS Proposal Deadline. Users are responsible for requesting beamtime following the CLS Call for Proposals and abiding to all APS policies and procedures associated with participating in an experiment. If the spokesperson is a student or postdoctoral fellow, their Scientific Project Leader must be affiliated with a Canadian university or college. To be eligible to apply for Canadian Access to the APS, the spokesperson must be affiliated with a Canadian university or college and have a CLS Institutional Agreement in place. User time obtained through this mechanism is via the CLS competitive peer review process, emphasizing the excellence of science where there is intent to publish scientific results. Beamtime is currently set aside for Canadian use as follows: 20-ID Through this arrangement, Canadians have access to techniques and beamlines at APS (some of which they helped develop), continue to aid in sector 20 development and operation, and promote the growth of the scientific community. A few left-field analyses were thrown our way – who’d have thought barium could be so easily confused for cobalt? But with Adriana’s help we went through all the samples in good time, giving us a chance to visit some pretty awesome restaurants in downtown Berkeley each evening and, on the last night, a bar that served some aggressively strong beer.The programme represents a partnership between the Canadian Light Source (CLS) and the Advanced Photon Source (APS) at Argonne National Laboratory in Illinois, USA. The shifts on the beam were relatively benign, as both early and late risers were accommodated for and the majority of the data was sound. We caught some good views of the city and the Golden Gate Bridge and got our feet wet in the Bay – one of us with our shoes still on, which was a bit uncomfortable for the rest of the day. There were rumours of mountain lions prowling the hills around the lab too, probably looking for some turkey to snack on.Ī cancellation on beamline 4.0.2 due to technical issues – an occurrence that hasn’t happened in 16 years, we were told – meant Laura and I had time to get the BART (Bay Area Rapid Transport) to San Francisco and spent the whole day wandering around after a brunch of burgers, Mexican food and beer. At work at the Advanced Light SourceĪlso present at the lab were groups of wild turkeys and deer that hadn’t realised, or didn’t care, that there was a particle accelerator and numerous physical sciences labs in their habitat. ![]() We were met in Berkeley by Adriana Figueroa-Garcia, a beamline scientist from Diamond, who was kind enough to give us a generous portion of time on beamline 6.3.1 to perform L-edge spectroscopy and X-ray magnetic circular dichroism (XMCD) on a range of samples containing half of the top row of transition metals (Mn, Fe, Co, Ni and Cu). Laura and Sul travelled to analyse samples generated from their work on the COG3 project. ![]() At the Advanced Light Source in Berkeley, California In November, Laura Newsome, a Research Associate, and Sul Mulroy, a PhD student at the University of Manchester Geomicrobiology group, travelled to California for beamtime at the Advanced Light Source synchrotron at the Lawrence Berkeley National Laboratory. ![]()
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