Open AccessAdaptive shape control of wavefront-preserving X-ray mirrors with active cooling and heating
Author(s) -
Daniele Cocco,
Corey Hardin,
Daniel Morton,
Lance Lee,
May Ling Ng,
Lin Zhang,
Lahsen Assoufid,
Walan Grizolli,
Xianbo Shi,
Donald A. Walko,
Grant D. Cutler,
Kenneth A. Goldberg,
Antoine Wojdyla,
Mourad Idir,
Lei Huang,
Guillaume Dovillaire
Publication year - 2020
Publication title -
optics express
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.394
H-Index - 271
ISSN - 1094-4087
DOI - 10.1364/oe.394310
Subject(s) - optics , deformable mirror , metrology , wavefront , adaptive optics , x ray optics , physics , active optics , synchrotron , resistive touchscreen , beam (structure) , synchrotron radiation , materials science , computer science , x ray , computer vision
This article describes the development and testing of a novel, water-cooled, active optic mirror system (called "REAL: Resistive Element Adjustable Length") that combines cooling with applied auxiliary heating, tailored to the spatial distribution of the thermal load generated by the incident beam. This technique is theoretically capable of sub-nanometer surface figure error control even at high power density. Tests conducted in an optical metrology laboratory and at synchrotron X-ray beamlines showed the ability to maintain the mirror profile to the level needed for the next generation storage rings and FEL mirrors.