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A Novel Short‑Period High‑Field HTS Undulator Based on (0001)<11‑20>  Textured Dysprosium Poles--Radiabeam Technologies, LLC, 13428 Beach Ave, Marina Del Rey, CA   90292;  310‑822‑5845 

Dr. Alex Murokh, Principal Investigator, murokh@radiabeam.com

Mr. Salime Boucher, Business Official, boucher@radiabeam.com

DOE Grant No. DE-FG 02‑08ER85017

Amount: $99,994

 

 

Synchrotron radiation facilities provide critical capabilities to thousands of users.  The growing demand for higher-brilliance hard X-ray sources pushes the performance envelope of standard in-vacuum insertion devices to the fundamental limit of the technology.  Shorter period, higher field undulators would enable a significant improvement in brightness, spectral resolution, and spatial resolution of the synchrotron light at hard x-ray wavelengths.  This project will combine high temperature superconductivity with the unique ferromagnetic properties of dysprosium metal to develop an ultra-short period, high field undulator.  In Phase I, a fabrication procedure will be developed to produce textured dysprosium poles of high magnetic quality in a cost effective way, to enable development of the proposed novel insertion devices on a practical scale.

 

Commercial Applications and other Benefits as described by the awardee:  The technology should significantly enhance the capabilities of moderate-energy light sources to better serve the growing needs of synchrotron radiation users.