Allured, RyanRyanAlluredBen-Ami, SagiSagiBen-AmiCOTRONEO, VINCENZOVINCENZOCOTRONEOMarquez, VanessaVanessaMarquezMcMuldroch, StuartStuartMcMuldrochReid, Paul B.Paul B.ReidSchwartz, Daniel A.Daniel A.SchwartzTrolier-McKinstry, SusanSusanTrolier-McKinstryVikhlinin, Alexey A.Alexey A.VikhlininWallace, Margeaux L.Margeaux L.Wallace2020-04-162020-04-16201597816284176920277-786Xhttp://hdl.handle.net/20.500.12386/24068We report on improvements in our efforts to control and characterize piezoelectrically adjustable, thin glass optics. In the past, an optical profilometer and a Shack-Hartmann wavefront sensor have been used to measure influence functions for a at adjustable mirror. An electronics system has since been developed to control > 100 actuator cells and has been used in a full calibration of a high-yield at adjustable mirror. The calibrated influence functions have been used to induce a pre-determined figure change to the mirror, representing our first attempt at figure control of a full mirror. Furthermore, we have adapted our metrology systems for cylindrical optics, allowing characterization of Wolter-type mirrors. We plan to use this metrology to perform the first piezoelectric figure correction of a cylindrical mirror over the next year....STAMPAenConference paper10.1117/12.21864112-s2.0-84951844652000366020700053https://www.spiedigitallibrary.org/conference-proceedings-of-spie/9603/1/Improved-control-and-characterization-of-adjustable-x-ray-optics/10.1117/12.2186411.short2015SPIE.9603E..1MAFIS/05 - ASTRONOMIA E ASTROFISICA