Kim YY, Gelisio L, Mercurio G, Dziarzhytski S, Beye M, Bocklage L, Classen A, David C, Gorobtsov OY, Khubbutdinov R, Lazarev S, Mukharamova N, Obukhov YN, Roesner B, Schlage K, Zaluzhnyy IA, Brenner G, Roehlsberger R, von Zanthier J, Wurth W, Vartanyants IA (2020)
Publication Type: Journal article
Publication year: 2020
Book Volume: 101
Journal Issue: 1
DOI: 10.1103/PhysRevA.101.013820
Here we present the results of a classical ghost imaging experiment accomplished at an XUV free-electron laser (FEL). To perform such experiment at an FEL source each x-ray pulse was transmitted through a moving diffuser, which created a noncorrelated speckled beam. This beam was then split in two identical branches by introducing a beam splitter in the form of a transmission grating. In one of these branches the sample was positioned. We demonstrate the possibility of image formation, a double bar in our case, in the beam that has never interacted with the sample. With this experiment we extend the quantum optics methodology to the FEL community.
APA:
Kim, Y.Y., Gelisio, L., Mercurio, G., Dziarzhytski, S., Beye, M., Bocklage, L.,... Vartanyants, I.A. (2020). Ghost imaging at an XUV free-electron laser. Physical Review A, 101(1). https://doi.org/10.1103/PhysRevA.101.013820
MLA:
Kim, Young Yong, et al. "Ghost imaging at an XUV free-electron laser." Physical Review A 101.1 (2020).
BibTeX: Download