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The 'Advanced Photon Source' ('APS') at Argonne National Laboratory is a national synchrotron-radiation light source research facility funded by the United States Department of Energy, Office of Science, Office of Basic Energy Sciences. Argonne National Laboratory is managed by UChicago Argonne, LLC, which is composed of the University of Chicago, Jacobs Engineering Group Inc. and BWX Technologies, Inc. (BWXT).
Using high-brilliance X-ray beams from the APS, members of the international synchrotron-radiation research community conduct forefront basic and applied research in the fields of materials science, biological science, physics, chemistry, environmental, geophysical, planetary science, and innovative X-ray instrumentation.

Contents

How APS works

References

External links

How APS works

Electrons are produced by a cathode that is heated to about 1,100°C (2,000°F). The electrons are accelerated to 99.999% of the speed of light in a linear accelerator.^[1] From the linear accelerator, the electrons are injected into the booster synchrotron. Here, the electrons are sent around an oval racetrack of electromagnets, providing further acceleration. Within one-half second, the electrons reach 99.999999% of the speed of light.^[2] Upon reaching this speed, the electrons are injected into the storage ring, a 1104 meter (3 622 ft) circumference ring of
more than 1,000 electromagnets.^[3]
Once in the storage ring, the electrons are available for use in experimentation. Around the ring are 40 straight sections. One of these sections is used to inject electrons into the ring, and four are dedicated to replenishing the electron energy lost though x-ray emission by using 16 radio-frequency accelerating cavities. The remaining 35 straight sections are equipped with insertion devices. Insertion devices, usually wigglers or undulators, cause electrons to wobble through the section, thus emitting light. Due to the relativistic velocities of the electrons, that light is Lorentz contracted into the x-ray band of the electromagnetic spectrum.^[4]
The Experiment Hall surrounds the storage ring and is divided into 35 sectors, each of which has access to x-ray beamlines, one at an insertion device, and the other at a bending magnet.^[5] Each sector also has a lab/office module offering immediate access to the beamline.^[6]

References

1. Linear Accelerator
2. The Booster Synchrotron
3. The Electron Storage Ring
4. ''Ibid.''
5. APS Experiment Hall & Beamlines
6. APS Experiment Hall & Beamlines (cont'd)

External links

★ Advanced Photon Source

★ Advanced Photon Source Science Highlights

★ Lightsources.org