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Title: Collaborative development of diffraction-limited beamline optical systems at US DOE light sources

Abstract

An ongoing collaboration among four US Department of Energy (DOE) National Laboratories has demonstrated key technology prototypes and software modeling tools required for new high-coherent flux beamline optical systems. New free electron laser (FEL) and diffraction-limited storage ring (DLSR) light sources demand wavefront preservation from source to sample to achieve and maintain optimal performance. Fine wavefront control was achieved using a novel, room-temperature cooled mirror system called REAL (resistive element adjustable length) that combines cooling with applied, spatially variable auxiliary heating. Single-grating shearing interferometry (also called Talbot interferometry) and Hartmann wavefront sensors were developed and used for optical characterization and alignment on several beamlines, across a range of photon energies. Demonstrations of non-invasive hard x-ray wavefront sensing were performed using a thin diamond single-crystal as a beamsplitter.

Authors:
; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ;
Publication Date:
Research Org.:
Argonne National Lab. (ANL), Argonne, IL (United States)
Sponsoring Org.:
USDOE Office of Science (SC), Basic Energy Sciences (BES) (SC-22)
OSTI Identifier:
1572526
DOE Contract Number:  
AC02-06CH11357
Resource Type:
Conference
Resource Relation:
Conference: 2019 SPIE Optics + Photonics, 08/11/19 - 08/15/19, San Diego, CA, US
Country of Publication:
United States
Language:
English
Subject:
FEL; adaptive optics; hard x-ray; mirror; non-invasive; soft x-ray; synchrotron; wavefront sensing

Citation Formats

Goldberg, Kenneth A., Wojdyla, Antoine, Bryant, Diane, Chao, Weilun, Cocco, Daniele, Hardin, Corey, Morton, Daniel, Ng, May Ling, Lee, Lance, Assoufid, Lahsen, Grizolli, Walan, Shi, Xianbo, Kearney, Steven P., Wojcik, Michael, Shvyd'ko, Yuri, Shu, Deming, Idir, Mourad, and Huang, Lei. Collaborative development of diffraction-limited beamline optical systems at US DOE light sources. United States: N. p., 2019. Web. doi:10.1117/12.2530817.
Goldberg, Kenneth A., Wojdyla, Antoine, Bryant, Diane, Chao, Weilun, Cocco, Daniele, Hardin, Corey, Morton, Daniel, Ng, May Ling, Lee, Lance, Assoufid, Lahsen, Grizolli, Walan, Shi, Xianbo, Kearney, Steven P., Wojcik, Michael, Shvyd'ko, Yuri, Shu, Deming, Idir, Mourad, & Huang, Lei. Collaborative development of diffraction-limited beamline optical systems at US DOE light sources. United States. doi:10.1117/12.2530817.
Goldberg, Kenneth A., Wojdyla, Antoine, Bryant, Diane, Chao, Weilun, Cocco, Daniele, Hardin, Corey, Morton, Daniel, Ng, May Ling, Lee, Lance, Assoufid, Lahsen, Grizolli, Walan, Shi, Xianbo, Kearney, Steven P., Wojcik, Michael, Shvyd'ko, Yuri, Shu, Deming, Idir, Mourad, and Huang, Lei. Tue . "Collaborative development of diffraction-limited beamline optical systems at US DOE light sources". United States. doi:10.1117/12.2530817.
@article{osti_1572526,
title = {Collaborative development of diffraction-limited beamline optical systems at US DOE light sources},
author = {Goldberg, Kenneth A. and Wojdyla, Antoine and Bryant, Diane and Chao, Weilun and Cocco, Daniele and Hardin, Corey and Morton, Daniel and Ng, May Ling and Lee, Lance and Assoufid, Lahsen and Grizolli, Walan and Shi, Xianbo and Kearney, Steven P. and Wojcik, Michael and Shvyd'ko, Yuri and Shu, Deming and Idir, Mourad and Huang, Lei},
abstractNote = {An ongoing collaboration among four US Department of Energy (DOE) National Laboratories has demonstrated key technology prototypes and software modeling tools required for new high-coherent flux beamline optical systems. New free electron laser (FEL) and diffraction-limited storage ring (DLSR) light sources demand wavefront preservation from source to sample to achieve and maintain optimal performance. Fine wavefront control was achieved using a novel, room-temperature cooled mirror system called REAL (resistive element adjustable length) that combines cooling with applied, spatially variable auxiliary heating. Single-grating shearing interferometry (also called Talbot interferometry) and Hartmann wavefront sensors were developed and used for optical characterization and alignment on several beamlines, across a range of photon energies. Demonstrations of non-invasive hard x-ray wavefront sensing were performed using a thin diamond single-crystal as a beamsplitter.},
doi = {10.1117/12.2530817},
journal = {},
number = ,
volume = ,
place = {United States},
year = {2019},
month = {1}
}

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