An extremely fast 'electron camera' has produced the most detailed atomic movie of the decisive point where molecules hit by light can either stay intact or break apart. The results could lead to a ...

An instrument that uses high-energy electrons to take "snapshots" of ultrafast chemical processes at the atomic and molecular level just got a major upgrade. Researchers have conducted the first ...

A new scientific instrument at the Department of Energy's SLAC National Accelerator Laboratory promises to capture some of nature's speediest processes. It uses a method known as ultrafast electron ...

SLAC staff scientist Alexander Reid was the first user of the lab's electron camera for ultrafast electron diffraction (MeV-UED) since it became available to the international community as part of the ...

While taking snapshots with the high-speed “electron camera” at the Department of Energy’s SLAC National Acceleratory Laboratory, researchers discovered new behavior in an ultrathin material that ...

Scientists have built a compact electron camera that can capture the inner, ultrafast dynamics of matter. The system shoots short bunches of electrons at a sample to take snapshots of its current ...

(Nanowerk News) Researchers at the National Institute of Standards and Technology (NIST) and their collaborators have developed a way to retrofit the transmission electron microscope -- a ...

Internal frame rate/frame transfer to computer 320 fps, max dose rate of ~12 electron/pixel/second File formats EER (includes 16k x 16k super-resolution data, all frames accessible – fractionation not ...

MESSRS. W. EDWARDS AND Co., Allendale Works, Vaughan Road, London, S.E.5, have recently published details of their Finch electron diffraction camera intended for industrial research. This camera is of ...

Irradiating ammonia—which is made up of one nitrogen and three hydrogens—with ultraviolet light causes one hydrogen to dissociate from the ammonia. SLAC researchers used an ultrafast "electron camera" ...

As reported in Nano Letters ("Giant Terahertz Birefringence in an Ultrathin Anisotropic Semimetal"), the team, led by SLAC and Stanford professor Aaron Lindenberg, found that when oriented in a ...