Kohmura, YoshikiYang, Shun-MinChen, Hsiang-HsinTakano, HidekazuChang, Chia-JuWang, Ya-SianLee, Tsung-TseChiu, Ching-YuYang, Kai-EnChien, Yu-TingHu, Huan-MingSu, Tzu-LingPetibois, CyrilChen, Yi-YunHsu, Cheng-HuanChen, PeilinHueng, Dueng-YuanChen, Shean-JenYang, Chi LinChin, An-LunLow, Chian-MingTan, Francis Chee KuanTeo, AlvinTok, Eng SoonCai, Xu XiangLin, Hong-MingBoeckl, JohnStampfl, Anton P.Yamada, JumpeiMatsuyama, SatoshiIshikawa, TetsuyaMargaritondo, GiorgioChiang, Ann-ShynHwu, Yeukuang2022-07-042022-07-042022-07-042022-06-1110.1038/s41598-022-13377-whttps://infoscience.epfl.ch/handle/20.500.14299/189043WOS:000809588300027Microscopy by Achromatic X-rays With Emission of Laminar Light (MAXWELL) is a new X-ray/visible technique with attractive characteristics including isotropic resolution in all directions, large-volume imaging and high throughput. An ultrathin, laminar X-ray beam produced by a Wolter type I mirror irradiates the sample stimulating the emission of visible light by scintillating nanoparticles, captured by an optical system. Three-dimensional (3D) images are obtained by scanning the specimen with respect to the laminar beam. We implemented and tested the technique with a high-brightness undulator at SPring-8, demonstrating its validity for a variety of specimens. This work was performed under the Synchrotrons for Neuroscience-an Asia-Pacific Strategic Enterprise (SYNAPSE) collaboration.Multidisciplinary SciencesScience & Technology - Other Topicsnanoparticlesluminescenceperformancebreakingbarrierlensesdeeptext::journal::journal article::research article