Live, full FOV Au sintering
Full resolution, 4k x 4k, large FOV displayed at 20 fps with the Rio 16 camera.
Easily manage a large list of tasks
When single-particle screening with Latitude S, only schedule a few tasks to get feedback quickly or schedule the microscope to image every marked area.
Simplify repetitive single-particle screening tasks
Utilize the Latitude S grid-based tool to mark hundreds of contiguous or separate regions for investigation. Then apply templates to rapidly define acquisition patterns for each region and magnification you want to attain during your cryo-EM screen.
Use templates to mark many good areas
Latitude S templates let you select one or more areas to minimize repetitive activities while setting up your single-particle screen.
Quickly preview different sample areas
Use Latitude S to pick areas of different thickness or intensity to identify the part of the grid with the best looking samples.
Single-particle screening made simple
Latitude S allows you to just mark regions of the sample you want to screen for cryo-EM and takes away the hassle of setting up complex scripts.
4D STEM experiments enabled by high-speed direct electron detectors
In this webinar, we describe the challenges and opportunities created by 4D STEM.
Study grain orientations with virtual apertures
Sample courtesy of Dr. Geiss, Colorado State University
STEMx system, OneView camera, copper foil sample.
2D diffraction pattern for each real space STEM pixel
Video courtesy of Colin Ophus, Molecular Foundry
HAADF micrograph of SrTiO3-LaMnO3 multilayers, generated from a 256 x 64 grid of probe positions. Mean CBED patterns averaged over each unit cell from 4D STEM dataset. Created using the STEMx system with a K2 IS camera.
4D STEM operating principle
Video courtesy of Colin Ophus, Molecular Foundry
Experimental configuration of 4D STEM experiments using the STEMx system.
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