Difference between revisions of "Serial Femtosecond Crystallography"

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'''Serial Femtosecond Crystallography''' ('''SFX''').
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'''Serial Femtosecond Crystallography''' ('''SFX''') is the measurement of crystal structure by rapidly measuring incomplete diffraction patterns from a sequence of identical sample crystals. This is often performed at an [[XFEL]], where a sequence of crystals is dropped through the intense beam. With each snapshot, the crystal is measured shortly before it is destroyed by the intense beam ('diffract-and-destroy'). The sequence of diffraction patterns (slices through the three-dimensional [[reciprocal-space]]) can then be merged or analyzed collectively to determine the [[realspace]] crystal structure.
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As the brightness (high-flux and small spot-size) of modern [[synchrotron]]s increase, their measurements of crystals are also approaching the diffract-and-destroy regime; the same reconstruction methods are thus applicable to modern [[macromolecular crystallography]] [[beamlines]].
  
 
==See Also==
 
==See Also==

Latest revision as of 09:48, 10 March 2017

Serial Femtosecond Crystallography (SFX) is the measurement of crystal structure by rapidly measuring incomplete diffraction patterns from a sequence of identical sample crystals. This is often performed at an XFEL, where a sequence of crystals is dropped through the intense beam. With each snapshot, the crystal is measured shortly before it is destroyed by the intense beam ('diffract-and-destroy'). The sequence of diffraction patterns (slices through the three-dimensional reciprocal-space) can then be merged or analyzed collectively to determine the realspace crystal structure.

As the brightness (high-flux and small spot-size) of modern synchrotrons increase, their measurements of crystals are also approaching the diffract-and-destroy regime; the same reconstruction methods are thus applicable to modern macromolecular crystallography beamlines.

See Also