Electron Optic Documents

Data set for observing ferromagnetic samples. The mode has no magnetic field around samples.

Luminary Micro is a Compact Specimen Photoexcitation System (CPXS) for JEOL TEMs. It is composed of a modulated laser, a compact optical delivery system, an inlet port, and a mirror. With this add-on, users can direct and focus the laser output onto the TEM sample in situ. Luminary Micro can induce a rich variety of reactions and dynamic processes in the specimen, thanks to its <40 μm FWHM focus size, adjustable peak power up to 3 W, and the modulated pulse widths ranging from a few microseconds to seconds. With Luminary Micro, users can study laser-induced phenomena in situ using fast cameras. Combined with IDES/JEOL EDM fast shutter and/or Relativity subframing systems, Luminary Micro allows users to perform time-resolved studies using pump-probe methods in the microsecond time scale. The extremely compact footprint of the system allows easy installation without affecting the TEM resolution. The user can heat specimens to thousands of degrees C while keeping the freedom to use the specimen holder of your choice.

Luminary™ Micro is a Compact Specimen Photoexcitation System (CPXS) for JEOL TEMs.

Using Minimal Fringe Illumination and Coma-Free Image Shift an unprecedented throughput is possible on a JEOL CRYO ARM™. Given that a typical structure as published on EMPIAR requires 4-5000 images, the potential therefore exists of solving roughly 4-5 structures per day using a JEOL CRYO ARM™.

OBF System - Live Low Dose, Light Element Imaging

This Polymer note introduces a broad range of instruments used for polymer analysis and their applications.

Control the dose at every pixel.

The Pulse system is a modular and retrofittable upgrade to improve the speed and precision of scanning transmission electron microscopy signals.

The IDES Relativity Electrostatic Subframing System multiplies the frame rate of cameras on JEOL TEMs. Microscopes equipped with Relativity achieve exceptional time resolution, data throughput, and advanced automation capabilities. Addition of Relativity allows current JEOL TEM users to forego expensive camera upgrades to their existing systems, instead relying on installation of an electrostatic optics assembly in a wide-angle camera port. These optics rapidly deflect the image data to different regions (subframes) of the camera in a programmable sequence. Each camera readout contains a tiled array of crisp, blur-free subframes. Raw data is automatically analyzed to give a stack of open format images that are loaded back into the camera control software for viewing or further analysis.

The IDES Relativity™ Electrostatic Subframing System multiplies the frame rate of cameras on JEOL TEMs.