home | iBib | list | admin

Abstract of [Son11g]

Multi-wavelength anomalous diffraction phasing method at high intensity

Sang-Kil Son, Henry N. Chapman, and Robin Santra

New Science Opportunities at FLASH
(DESY, Hamburg, Germany, October 12-14, 2011) [oral presentation]

[bib][BibTeX][pdf][pdf][slide][slide: 8Mb][link]https://indico.desy.de/conferenceDisplay.py?confId=4425

Multi-wavelength anomalous diffraction (MAD) is widely used in x-ray crystallography with synchrotron radiation to determine phase information by employing dispersion corrections from heavy atoms. It has been extended to the XUV and soft-x-ray regime with light atoms for nanoscale imaging of noncrystalline materials. X-ray free-electron lasers (FELs) show promise for revealing the structure of single molecules or nanocrystals within femtoseconds, but the phase problem at high intensity of FEL remains largely unsolved. Due to an extremely high fluence of FEL, samples experience severe and unavoidable electronic radiation damage, which hinders direct implementation of the MAD method with FELs. We propose a generalized version of the MAD phasing method at high intensity. The essential equation for the MAD method is reformulated and relevant coefficients are calculated with damage dynamics and accompanying changes of the dispersion correction. Here we present the XATOM toolkit to simulate detailed electronic damage dynamics and discuss how the proposed method is applicable to the phase problem in molecular or nanoscale imaging with FELs.

Tags: MAD, x-ray scattering, x-ray diffraction, dispersion, x-ray crystallography, nanocrystal, molecular imaging, damage, phase problem, FEL, CFEL, DESY

[Page1] [Page2] [Page3] [Page4] [Page5]
[Page6] [Page7] [Page8] [Page9] [Page10]
[Page11] [Page12] [Page13] [Page14] [Page15]
[Page16] [Page17] [Page18] [Page19] [Page20]
[Page21] [Page22] [Page23] [Page24] [Page25]
Download a PDF: 8Mb

made by ZN