Members of the APS Upgrade team work on the first fully assembled sector of the new electron storage ring at the heart of the upgraded APS. The 1,321 magnets that make up the new storage ring will be assembled into 200 modules, and those modules assembled into 40 full sectors for installation at the APS. (Image by Jason Creps, Argonne National Laboratory.)
The Advanced Photon Source
a U.S. Department of Energy Office of Science User Facility
Progress In Pictures
May 2022
April 2022
Scientists inspect the new Resonant Inelastic X-ray Scattering (RIXS) spectrometer, the first APS Upgrade-funded beamline enhancement to become available to users. The new RIXS equipment has been installed at beamline 27-ID. (Image by Jason Creps, Argonne National Laboratory.)
April 2022
Close-up of one of the 1,321 magnets that will make up the new APS electron storage ring. Magnets are being assembled into modules at an offsite location by the APS Upgrade team. (Image by Jason Creps, Argonne National Laboratory.)
April 2022
View of a partially assembled magnet module for the APS Upgrade Project. The new electron storage ring will be made up of 1,321 magnets assembled into 200 modules, each aligned to within half the width of a human hair. (Image by Jason Creps, Argonne National Laboratory.)
April 2022
More than 60 of the needed 200 magnet modules have been partially assembled and are in storage. Once they are fully assembled, these modules will be prepared for transport to the APS during the year-long installation period, scheduled to begin in April 2023. (Image by Jason Creps, Argonne National Laboratory.)
April 2022
Technician Dino Canchola works on one of the new front-end exit tables that will be installed in the upgraded APS, inside the clean room in the APS Upgrade’s offsite facility. These new front end systems will deliver the brighter X-ray beams to the research stations, and cut off those beams when needed. (Image by Jason Creps, Argonne National Laboratory.)
February 2022
A new beamline enclosure under construction at the 25-ID beamline, which will become the new home of the Advanced Spectroscopy and LERIX program currently at 20-ID. (Image by Argonne National Laboratory.)
January 2022
The first production model superconducting undulator magnet for the APS Upgrade. The updated facility will use these magnets to help generate some of the world’s brightest X-rays. (Image by Jason Creps, Argonne National Laboratory.)
January 2022
Argonne engineer Matt Kasa demonstrates the system that winds superconducting magnets for use in the APS. Each magnet uses three kilometers of precisely spaced wire to generate its magnetic field. (Image by Jason Creps, Argonne National Laboratory.)
January 2022
Technician Jason Ackley works on the first production model superconducting magnet for the Advanced Photon Source Upgrade. These magnets operate at several different temperatures, the coldest around -450 degrees Fahrenheit. (Image by Jason Creps/Argonne National Laboratory.)