Single Particle Difraction at FLASH

Bogan, M.; Boutet, S.; Starodub, Dmitri; Decorwin-Martin, Philippe; Chapman, H.; Bajt, S.; Schulz, J.; Hajdu, Janos; Seibert, M. M.; Iwan, Bianca; Timneanu, Nicusor; Marchesini, Stefano; Barty, Anton; Benner, W. Henry; Frank, Matthias; Hau-Riege, Stefan P.; Woods, Bruce; Rohner, Urs

Title: Single Particle Difraction at FLASH

Conference · Fri Jun 11 00:00:00 EDT 2010

OSTI ID:981675

Bogan, M.; Boutet, S.; Starodub, Dmitri; Decorwin-Martin, Philippe; Chapman, H.; Bajt, S.; Schulz, J.; Hajdu, Janos; Seibert, M. M.; Iwan, Bianca; Timneanu, Nicusor; Marchesini, Stefano; Barty, Anton; Benner, W. Henry; Frank, Matthias; Hau-Riege, Stefan P.; Woods, Bruce; Rohner, Urs

Single-pulse coherent diffraction patterns have been collected from randomly injected single particles with a soft X-ray free-electron laser (FEL). The intense focused FEL pulse gives a high-resolution low-noise coherent diffraction pattern of the object before that object turns into a plasma and explodes. A diffraction pattern of a single particle will only be recorded when the particle arrival into the FEL interaction region coincides with FEL pulse arrival and detector integration. The properties of the experimental apparatus coinciding with these three events set the data acquisition rate. For our single particle FLASH diffraction imaging experiments: (1) an aerodynamic lens stack prepared a particle beam that consisted of particles moving at 150-200 m/s positioned randomly in space and time, (2) the 10 fs long FEL pulses were delivered at a fixed rate, and (3) the detector was set to integrate and readout once every two seconds. The effect of these experimental parameters on the rate of data acquisition using randomly injected particles will be discussed. Overall, the ultrashort FEL pulses do not set the limit of the data acquisition, more important is the effective interaction time of the particle crossing the FEL focus, the pulse sequence structure and the detector readout rate. Example diffraction patterns of randomly injected ellipsoidal iron oxide nanoparticles in different orientations are presented. This is the first single particle diffraction data set of identical particles in different orientations collected on a shot-to-shot basis. This data set will be used to test algorithms for recovering 3D structure from single particle diffraction.

View Conference

Cite

Export

Save

Research Organization:: SLAC National Accelerator Lab., Menlo Park, CA (United States)

Sponsoring Organization:: USDOE

DOE Contract Number:: AC02-76SF00515

OSTI ID:: 981675

Report Number(s):: SLAC-PUB-13712; TRN: US201012%%873

Resource Relation:: Conference: Invited talk at Particle Accelerator Conference (PAC 09), Vancouver, BC, Canada, 4-8 May 2009

Country of Publication:: United States

Language:: English

Similar Records

Single-Shot Femtosecond X-ray Diffraction from Randomly Oriented Ellipsoidal Nanoparticles

Journal Article · Wed Apr 18 00:00:00 EDT 2012 · Physical Review Special Topics - Accelerators and Beams · OSTI ID:981675

Bogan, M J; Boutet, S; Barty, A; +18 more

Ultrafast Coherent Diffractive Imaging at FLASH

Technical Report · Wed Nov 29 00:00:00 EST 2006 · OSTI ID:981675

Chapman, H N

Challenges and opportunities in attosecond and XFEL science

Journal Article · Tue Jan 29 00:00:00 EST 2019 · Nature Reviews Physics · OSTI ID:981675

Lindroth, Eva; Calegari, Francesca; Young, Linda; +4 more

Related Subjects

36 MATERIALS SCIENCE
SOFT X RADIATION
ALGORITHMS
DATA ACQUISITION
X-RAY DIFFRACTION
FREE ELECTRON LASERS
IRON OXIDES
PARTICLE BEAMS
Other
OTHER

Title: Single Particle Difraction at FLASH

Citation Formats

Similar Records

Related Subjects