Chapter Two - Mission Statement

Artist's rendition of Wilson Lab (ca. 1977)
showing CESR under the present Upper Alumni Athletic field.

The Cornell High Energy Synchrotron Source (CHESS) is a user-oriented National Facility to provide state-of-the-art synchrotron radiation facilities to the scientific community.  Supported by grants from the Division of Materials Research of the National Science Foundation, CHESS encompasses a multifaceted research and development program which is partly in-house and partly collaborative, with a wide spectrum of experimental groups  from Universities, National Laboratories and Industry.  Each year, 400-500 scientists and scientists in training visit CHESS to collect data that comprises all or part of their research programs. Also, a significant effort of the staff is aimed at developing synchrotron radiation experimental facilities and methods that utilize the high intensity photon flux provided by the Cornell Electron Storage Ring (CESR).

CHESS was constructed in the period from 1978 to 1980 as a synchrotron x-ray facility parasitic to the CESR High Energy Physics program. The original laboratory, CHESS West, included 3 instrumented beam lines, A, B, and C that provided 6 independent experimental stations. The total experimental West area is about 1000 square feet. The CHESS East laboratory was constructed during 1988-1989, adding 2 beam lines, D and F, and 4 instrumented experimental stations. CHESS East contains a biohazard level BL3 facility (built with funds from the NIH) which is part of the F1 station.

Construction began in 1999 for an addition to the facility through funds provided by Cornell University.   This new addition is to be the home to the new G-line and associated 3 additional experimental stations which are being constructed with a grant from the NSF.  The new facility will be operated in conjunction with CHESS by a Cornell University consortium to provide additional capabilities for experimenters.  The new G3 station is being constructed with extensive toxic gas handling capabilities advancing the prospects for in-situ crystal growth experiments.

Other facilities include a well-equipped modern darkroom, cold room for crystal mounting, experimental laboratories for user set-up, a central computer facility, and a machine shop with two resident machinists. There are general areas for setting up experiments which include a chemical room with fume hood as well as user accessible shop facilities.  A user lounge is available to help make a long 24 hour day a bit more tractable.

Last Update: 2006-09-21