| 7:30 - 8:15 |
Registration |
| 8:30 - 9:55 |
Opening & Plenary |
 |
8:30 - 8:35 |
Opening address |
T. Ishikawa |
RIKEN |
|
8:35 - 8:55 |
In memoriam of David Sayre |
J. Miao |
UCLA |
|
8:55 - 9:15 |
Single-particle XFEL imaging: recent success and future goals |
A. Martin |
Melbourne Univ. |
|
9:15 - 9:35 |
X-ray holography: beyond encoding a single picture |
S. Eisebitt |
TU Berlin |
|
9:35 - 9:55 |
Ptychographic reconstructions of mixed states |
A. Menzel |
PSI |
|
| 9:55-10:30 |
Coffee Break |
| 10:30 - 12:10 |
XFEL topics |
|
10:30 - 10:50 |
Cryogenic CXDI of non-crystalline particles at SACLA |
M. Nakasako |
Keio Univ. |
|
10:50 - 11:10 |
Coherence properties of individual femtosecond pulses of free-electron lasers |
A. Singer |
DESY |
|
11:10 - 11:30 |
Limitations of coherent diffractive imaging of single objects due to their damage by intense X-ray radiation |
Z. Jurek |
DESY |
|
11:30 - 11:50 |
Cryptotomography with X-ray free electron lasers |
N.D. Loh |
SLAC |
|
11:50 - 12:10 |
Biological structure determination using free electron lasers |
A. Barty |
DESY |
|
| 12:10 - 13:30 |
Lunch |
| 13:30 - 15:30 |
Ptychography (1) |
|
13:30 - 13:50 |
Holo-ptychography: simultaneous phase retrieval and wavefront reconstruction for inline holography |
M. Stockmar |
TU München |
|
13:50 - 14:10 |
Applications of X-ray Bragg ptychography |
P. Fuoss |
ANL |
|
14:10 - 14:30 |
High-resolution X-ray ptychography using focused hard X-ray beam |
Y. Takahashi |
Osaka Univ. |
|
14:30 - 14:50 |
Three-dimensional high-resolution quantitative microscopy of extended crystals |
P. Godard |
CNRS |
|
14:50 - 15:10 |
Three-dimensional microscopy of shape, density and strain in a nano-structured crystal using Bragg ptychography: methodological aspects |
V. Chamard |
CNRS |
|
15:10 - 15:30 |
Hard X-ray imaging of bacterial cells: ptychographic reconstructions in 3D |
R.N. Wilke |
University of Göttingen |
|
|
15:30 - 16:00
|
Coffee Break |
| 16:00 - 17:40 |
Ptychography (2) |
|
16:00 - 16:20 |
Translation position correction in ptychography |
F. Zhang |
University College London |
|
16:20 - 16:40 |
Possibilities and limits of ptychography applied to biological tissues |
F. Berenguer |
Synchrotron Soleil |
|
16:40 - 17:00 |
Pink beam ptychography |
B. Enders |
TU München |
|
17:00 - 17:20 |
Ptychographic reconstructions using shared data sets |
|
TU München |
|
17:20 - 17:40 |
Ptychographic electron diffraction imaging at atomic resolution |
C. Putkunz |
Melbourne Univ. |
|
| 8:30 - 9:50 |
X-ray Photon Correlation Spectroscopy and X-ray Cross Correlation Analysis (1) |
|
8:30 - 8:50 |
X-ray cross-correlation analysis applied to disordered two-dimensional systems |
I.A. Vartaniants |
DESY |
|
8:50 - 9:10 |
High contrast X-ray speckle from atomic-scale order in liquids and glasses |
S.O. Hruszkewycz |
ANL |
|
9:10 - 9:30 |
Multi-speckle XPCS as a probe of heterogeneous and anisotropic dynamics |
A. Madsen |
European XFEL |
|
9:30 - 9:50 |
Detecting local order beyond the structure factor in hard sphere glasses |
F. Lehmkühler |
DESY |
|
| 9:50-10:20 |
Coffee Break |
| 10:20 - 11:40 |
X-ray Photon Correlation Spectroscopy and X-ray Cross Correlation Analysis (2) |
|
10:20 - 10:40 |
Statics and dynamics of charged colloidal systems |
F. Westermeier |
DESY |
|
10:40 - 11:00 |
Observation of dynamics of nanoparticles in rubber with X-ray
photon correlation spectroscopy |
Y. Shinohara |
Tokyo Univ. |
|
11:00 - 11:20 |
Cross-correlation based 2D structure determination from multi-particle scattering images |
B. Pedrini |
PSI |
|
11:20 - 11:40 |
Ab initio imaging from correlated fluctuations in X-ray scattering |
R. Kirian |
DESY |
|
| 11:40 - 13:10 |
Lunch |
| 13:10 - 15:10 |
3D Coherent X-ray Imaging |
|
13:10 - 13:30 |
Structural principles of nanoparticles investigated by coherent X-ray diffraction |
I. Robinson |
University College London |
|
13:30 - 13:50 |
Three-dimensional diffraction imaging with partial coherence |
J.N. Clark |
University College London |
|
13:50 - 14:10 |
Three-dimensional structure of a single colloidal crystal grain studied by coherent X-ray diffraction |
R. Dronyak |
DESY |
|
14:10 - 14:30 |
Applications of three-dimensional coherent X-ray diffraction microscopy in biomaterials |
H. Jiang |
Shandong Univ. |
|
14:30 - 14:50 |
Hard X-ray imaging and tomography of cells and tissues |
M. Bartels |
University of Göttingen |
|
14:50 - 15:10 |
Reconstruction of viruses from XFEL diffraction patterns |
D.K. Saldin |
Wisconsin Univ. |
|
| 15:10 - 15:40 |
Coffee Break |
| 15:40 - 17:40 |
Coherent Diffractive Imaging (1) |
|
15:40 - 16:00 |
Orientation determination in single particle X-ray coherent imaging |
O.M. Yefanov |
DESY |
|
16:00 - 16:20 |
Selective coherent X-ray diffractive imaging of strains in compound nanostructure systems |
A.A. Minkevich |
KIT |
|
16:20 - 16:40 |
Imaging clusters and aggregates of nanoparticles |
L. Shemilt |
University College London |
|
16:40 - 17:00 |
From single to several dislocations probed by coherent X-ray diffraction |
V.L.R. Jacques |
ESRF |
|
17:00 - 17:20 |
Berry-phase X-ray translation inside monotonous bend and hetero-epitaxial crystal |
Y. Kohmura |
RIKEN |
|
17:20 - 17:40 |
Coherent X-ray diffraction imaging of weak phase objects with the aid of reference signals |
D.Y. Noh |
GIST |
|
| 8:30 - 10:10 |
Coherent Diffractive Imaging (2) |
|
8:30 - 8:50 |
Computational study of novel X-ray focusing optics with zooming function for X-ray diffraction microscopy |
T. Kimura |
Hokkaido Univ. |
|
8:50 - 9:10 |
Coherent diffraction imaging of quantitative height profile using a focused hard X-ray |
S. Kim |
RIKEN |
|
9:10 - 9:30 |
Impact of electronic damage on single-particle coherent diffraction imaging experiments |
U. Lorenz |
DESY |
|
9:30 - 9:50 |
How to take X-ray snap-shots of materials without lenses |
J.J. Turner |
SLAC |
|
9:50 - 10:10 |
Noise-model dependent iterative algorithms for coherent diffractive imaging with low counting rate |
M. Allain |
Aix-Marseille Univ. |
|
| 10:10-10:30 |
Coffee Break |
| 10:30 - 11:50 |
Coherent Diffractive Imaging (3) |
|
10:30 - 10:50 |
Pinning and depinning process of an incommensurate charge density wave as revealed by coherent X-ray diffraction |
D. Le Bolloc'h |
CNRS |
|
10:50 - 11:10 |
Time-resolved coherent X-ray diffraction imaging of ultra-fast strain dynamics at the nanoscale |
M.C. Newton |
Hokkaido Univ. |
|
11:10 - 11:30 |
Coherent X-ray scattering to study nanostructure and dynamics |
H. Kim |
Sogang Univ. |
|
11:30 - 11:50 |
Quantitative visualization of sample thickness and p-n junction using electron diffractive imaging |
J. Yamasaki |
Nagoya Univ. |
|
| 11:50 - 13:10 |
Lunch |
| 13:10 - 14:50 |
Instrumentation |
|
13:10 - 13:30 |
X-ray photon correlation spectroscopy: from storage rings to X-ray free electron lasers |
A. Robert |
SLAC |
|
13:30 - 13:50 |
P10 holography endstation of PETRA Ⅲ-Propagation based phase contrast X-ray imaging of Caenorhabditis elegans |
M. Bartels |
University of Göttingen |
|
13:50 - 14:10 |
Hard X-ray diffraction imaging of cells and organelles at SPring-8 |
C. Song |
RIKEN |
|
14:10 - 14:30 |
Recent developments for coherent X-ray diffraction imaging at the ESRF |
Y. Chushkin |
ESRF |
|
14:30 - 14:50 |
The hard X-ray delay line at the XCS instrument at LCLS |
G. Grübel |
DESY |
|
| 14:50 - 15:15 |
Coffee Break |
| 15:15 - 16:20 |
SACLA session (1): Facility |
|
15:15 - 15:20 |
Introduction |
T. Ishikawa |
RIKEN |
|
15:20 - 15:35 |
Light source in SACLA Session (1) : Facility |
H. Tanaka |
RIKEN |
|
15:35 - 15:50 |
Status and future of SACLA Beamline |
M. Yabashi |
RIKEN |
|
15:50 - 16:05 |
End stations of SACLA : Experimental instruments and photon diagnostic systems |
K. Tono |
JASRI |
|
16:05 - 16:20 |
Detector and data acquisition system for SACLA |
T. Hatsui |
RIKEN |
|
| 16:20 - 16:30 |
Short Break |
| 16:30 - 17:30 |
SACLA session (2): Application & Closing |
|
16:30 - 16:50 |
Nanofocusing and wavefront analysis of SACLA |
K. Yamauchi |
Osaka Univ. |
|
16:50 - 17:10 |
Possible solution to the experimental observation of fast relaxation in amorphous materials |
E. Matsubara |
Kyoto Univ. |
|
17:10 - 17:30 |
SACLA future plan: application for biology |
S. Iwata |
Kyoto Univ. |
|
17:30 - |
Closing remark |
K. Nugent |
Melbourne Univ. |
|
Poster Session
|
| 24 papers (as of June 12) |
|
|
| PS-1 |
X-ray coherent diffraction interpreted through the fractional Fourier transform |
D. Le Bolloc’h |
CNRS |
| PS-2 |
Development of high-resolution X-ray ptychography using drift-compensation method |
A. Suzuki |
Osaka Univ. |
| PS-3 |
Development of aerodynamic focusing liquid jet injector for single particle imaging at SACLA |
J. Park |
RIKEN |
| PS-4 |
An update on the imaging and coherence beamline I13L at the Diamond Light Source |
U. H. Wagner |
Diamond |
| PS-5 |
Development of a Digital Ion Trap (DIT) mass spectrometer for gas phase scattering experiments at SACLA |
M. Gallagher-Jones |
RIKEN |
| PS-6 |
Holographically aided iterative phase retrieval |
S. Flewett |
PSI |
| PS-7 |
Coherent diffractive imaging in user operation |
A. Menzel |
PSI |
| PS-8 |
Development of a versatile coherent X-ray diffraction microscope |
D. Nam |
RIKEN |
| PS-9 |
Ptychographic imaging in Bragg geometry |
N. Burdet |
University College London |
| PS-10 |
Dynamic of glass forming liquids studied via XPCS |
H. Conrad |
DESY |
| PS-11 |
Humidity-controlled preparation of frozen-hydrated, non-crystalline particles for cryogenic coherent X-ray diffraction imaging |
Y. Takayama |
Keio Univ. |
| PS-12 |
The Single Particles, Clusters and Biomolecules (SPB) instrument of the
European XFEL |
A. P. Mancuso |
European XFEL |
| PS-13 |
Fabrication of OSAKA MIRROR for synchrotron application |
A. Ueda |
JTEC |
| PS-14 |
Analysis of telomere structure in human chromosome by coherent X-ray diffractive imaging |
Y. Negishi |
Yokohama City Univ. |
| PS-15 |
Fabrication of a Bragg beam splitter for an X-ray autocorrelator |
T. Osaka |
Osaka Univ. |
| PS-16 |
Development of piezoelectric deformable mirrors for X-ray focusing |
H. Nakamori |
Osaka Univ. |
| PS-17 |
Kirkpatrick-Baez focusing mirrors at SACLA |
H. Yumoto |
JASRI |
| PS-18 |
Observing ultra-fast phase transitions by time-resolved coherent diffraction imaging using SACLA |
K. Soeda |
Hokkaido Univ. |
| PS-19 |
Photon-Matter Interaction: a simulation module for the Start-to-End (S2E) Experiment Modelling Project of the SPB Beamline at the European XFEL |
Z. Jurek |
DESY |
| PS-20 |
The Coherence Beamline P10 / PETRA III |
F. Westermeier |
DESY |
| PS-21 |
Damage study of optical materials by focusing beam of hard X-ray free-electron laser |
T. Koyama |
JASRI |
| PS-22 |
The materials imaging and dynamics instrument at the European XFEL |
A. Madsen |
European XFEL |
| PS-23 |
Analysis of mutual coherence function of x-ray beam |
H. Yamazaki |
JASRI |
| PS-24 |
Some results from the Coherent Imaging instrument at the Linac Coherent Light Source |
G. J. Williams |
SLAC |
