Supplementary videos for Journal of Applied Crystallography

ks0017sup1.mpg
Tetragonal-rhombohedral (orientation)		DetailsDirect download
ks0017sup2.mpg
Tetragonal-rhombohedral (sin [delta])		DetailsDirect download
ks0017sup3.mpg
Cubic-tetragonal (orientation)		DetailsDirect download
ks0017sup4.mpg
Cubic-tetragonal (sin [delta])		DetailsDirect download
he5319sup10.avi
Supplementary material		DetailsDirect download
he5319sup11.avi
Supplementary material		DetailsDirect download
he5319sup12.avi
Supplementary material		DetailsDirect download
he5319sup13.avi
Supplementary material		DetailsDirect download
he5319sup14.avi
Supplementary material		DetailsDirect download
he5319sup15.avi
Supplementary material		DetailsDirect download
he5319sup16.avi
Supplementary material		DetailsDirect download
he5319sup17.avi
Supplementary material		DetailsDirect download
he5319sup4.avi
Supplementary material		DetailsDirect download
he5346sup2.avi
Supplementary material		DetailsDirect download
he5346sup3.avi
Supplementary material		DetailsDirect download
he5346sup4.avi
Supplementary material		DetailsDirect download
he5319sup5.avi
Supplementary material		DetailsDirect download
he5319sup6.avi
Supplementary material		DetailsDirect download
he3456sup5.avi
Supplementary material		DetailsDirect download
he5319sup7.avi
Supplementary material		DetailsDirect download
he5346sup6.avi
Supplementary material		DetailsDirect download
he5319sup8.avi
Supplementary material		DetailsDirect download
he5319sup9.avi
Supplementary material		DetailsDirect download
he5346sup7.avi
Supplementary material		DetailsDirect download
he5374sup1.avi
M1: Background-corrected raw projection data acquired during scan A.		DetailsDirect download
he5374sup2.avi
M2: Background-corrected raw projection data acquired during scan B.		DetailsDirect download
he5374sup3.avi
M3: A three-dimensional rendition of the grain surface, obtained from the reconstruction of scan A.		DetailsDirect download
cj6012sup1.avi
Time-resolved movie of the evolution of the speckle patterns as the particles move within the sample. The movie frequency is 50 times real time. The top-left corner is the Q = 0 position, covered by the beamstop.		DetailsDirect download
hx5063sup1.avi
Supplementary material		DetailsDirect download
he5462sup1.mpg
Overall view of the procedure of using the device. The black CCD camera at the center of this view supported by a three-finger clamp is temporarily set for the microscopic up view of the crystal.		DetailsDirect download
hx5063sup2.avi
Supplementary material		DetailsDirect download
he5444sup2.avi
Process of crystal manipulation		DetailsDirect download
he5462sup2.mpg
Closeup view of the procedure. A protein crystal was picked up from a drop and frozen. In this demonstration, the drop was put on a cover slide, but it is possible to pick a crystal up from crystallization plates.		DetailsDirect download
he5462sup3.mpg
Demonstration of the movement of the mechanically linked X-Y-Z micromanipulator. The tilt angle of the cryo-pin is adjustable by an optical encoder attached at the manipulator arm.		DetailsDirect download
he5462sup4.mpg
Demonstration of synchronously-controlled cryo-stream shutter and manipulator. The action repeats twice.		DetailsDirect download
he5462sup5.mpg
Real time movie of the microscopic view of the tip of the capillary at the freezing position. It is possible to see the process of removing the external solution. A hen egg white lysozyme crystal was used.		DetailsDirect download
he5462sup6.avi
20% slow-motion movie of he5462sup5.mpg. It is easily observed that the external solution is aspirated and the crystal sits on the tip of the capillary just before freezing.		DetailsDirect download
he5462sup7.mpg
Real time movie of the microscopic view of a hen egg white lysozyme crystal.		DetailsDirect download
he5462sup8.mpg
Real time movie of the microscopic view of a thaumatin crystal.		DetailsDirect download
he5462sup9.mpg
A thaumatin crystal. One end of the crystal sticks into the capillary hole.		DetailsDirect download
he5470sup1.avi
The robot in action		DetailsDirect download
he5480sup1.wmv
Real-time fitting of data for RT3		DetailsDirect download
ea5129sup2.wmv
Video 1: Preparation of the Nextal tray		DetailsDirect download
ea5129sup3.wmv
Video 2: Incorporating magnets for loop manipulation		DetailsDirect download
wf5079sup1.wmv
Intensity BIM video for sample VTE28		DetailsDirect download
wf5079sup2.wmv
Orientation BIM video for sample VTE28		DetailsDirect download
wf5079sup3.wmv
sin delta BIM video for sample VTE28		DetailsDirect download
wf5079sup4.wmv
Intensity BIM video for sample LNT67		DetailsDirect download
wf5079sup5.wmv
Orientation BIM video for sample LNT67		DetailsDirect download
wf5079sup6.wmv
sin delta BIM video for sample LNT67		DetailsDirect download
ce5128sup1.avi
A series of topography images at different diffraction angles from an undoped single-crystal CVD diamond displaying almost no parasitic scattering (the same one as in Figs. 2 and 5e).		DetailsDirect download
ce5128sup2.avi
A series of topography images at different diffraction angles from a single-crystal CVD diamond displaying strong parasitic scattering (the same one as in Figs. 4c and 5f).		DetailsDirect download
ks5305sup1.wmv
Temperature dependence of optical birefringence and distribution of orientation angles in the pure NBT crystal. See Figs. 2-3 for more details. High-resolution version.		DetailsDirect download
ks5305sup2.wmv
Temperature dependence of optical birefringence and distribution of orientation angles in the Mn-doped NBT crystal. See Figs. 5-6 for more details. High-resolution version.		DetailsDirect download
ks5305sup3.wmv
Temperature dependence of optical birefringence in the pure NBT crystal. See Fig. 2 for more details. High-resolution version.		DetailsDirect download
ks5305sup4.wmv
Temperature dependence of optical birefringence in the Mn-doped NBT crystal. See Fig. 5 for more details. High-resolution version.		DetailsDirect download
ks5305sup5.avi
Temperature dependence of optical birefringence and distribution of orientation angles in the pure NBT crystal. See Figs. 2-3 for more details. Low-resolution version.		DetailsDirect download
ks5305sup6.avi
Temperature dependence of optical birefringence and distribution of orientation angles in the Mn-doped NBT crystal. See Figs. 5-6 for more details. Low-resolution version.		DetailsDirect download
ks5305sup7.avi
Temperature dependence of optical birefringence in the pure NBT crystal. See Fig. 2 for more details. Low-resolution version.		DetailsDirect download
ks5305sup8.avi
Temperature dependence of optical birefringence in the Mn-doped NBT crystal. See Fig. 5 for more details. Low-resolution version.		DetailsDirect download
aj5201sup1.wmv
Combined SAXS and 3DXRD patterns		DetailsDirect download
he5568sup1.mov
Movie S1: progression of the precipitation front. Four TollN6-VLR capillaries were set up with reservoirs either of 3.4 M sodium malonate pH 7.0 (two capillaries on the left) or 0.15M I3C, 2.89M sodium malonate pH 7.0 (two capillaries on the right). A picture was taken every hour over ten days. A movie was generated with 24 frames per second. The progression of the precipitation front is clearly visible in the second capillary from the left.		DetailsDirect download
xk5009sup1.avi
Movie 1		DetailsDirect download
xk5009sup2.avi
Movie 2		DetailsDirect download
xz5004sup1.wmv
Movie showing X-ray diffraction images around a crack tip during heating		DetailsDirect download