Abstract
Coherent diffraction imaging [1] is a lensless imaging method which uses phase retrieval algorithms [2] to obtain wavelength scale resolution images. This method is usually performed at synchrotron or x-ray free-electron laser sources which are highly coherent and brilliant [3]. The development of high harmonic generation source [4] and recent emergence of attosecond sources [5-7] open the opportunities to obtain high resolution images at laboratory scale. In this research, we have computationally demonstrated the possibility to recover the information of sample from broadband diffraction intensity. This opens the potential applications of attosecond sources for single shot diffraction imaging technique.
© 2022 Japan Society of Applied Physics, Optica Publishing Group
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