We are the ONLY center in the world that provides «high tech and high touch» linear accelerator generated radiation therapy with both photon and
electron beam radiation, Trilogy based stereotactic radiosurgery (SRS) and the robotically controlled, computer controlled, Cyberknife stereotactic radiosurgery.
After 24 h of incubation, cells in the flask were treated with 1.0, 2.0 and 3.0 Gy
electron beam radiation (Microtron Centre, Mangalore University, India).
Inhibition of ERK1 / 2 and AKT equally enhanced radio - sensitivity of B16F10 cells exposed to 2.0 and 3.0 Gy
electron beam radiation
Methods: Mouse melanoma cell line B16F10 was exposed to 1.0, 2.0 and 3.0 Gy of
electron beam radiation.
The downside of this technique is that the repeated
electron beam radiation can progressively damage the sample.
Not exact matches
The second visualization was a movie captured at 23,000 - times magnification that revealed the movements of a group of nanoparticles reacting to an
electron beam, which mimics the effects of the infrared
radiation used in cancer therapies.
The researchers compared the images from the first and last scans to verify that the tungsten had not been damaged by the
radiation, thanks to the
electron beam energy being kept below the
radiation damage threshold of tungsten.
The researchers directed the pulsed terahertz
radiation and the
electron beam onto a special antenna, where the
electrons and the terahertz photons can interact.
Dwight Duston, director of science and technology at the Pentagon's Star Wars office, says the free -
electron laser, once trumpeted as a weapon for destroying incoming enemy missiles, could be used to produce a
beam of high - quality X-rays that would reduce a woman's exposure to
radiation during mammography.
DARPA is looking at more efficient technologies, like fiber lasers and liquid lasers, which could lead to smaller, more compact devices, while the Navy is researching a Free
Electron Laser, an experimental technology that uses high - speed
electrons to generate an extremely powerful focused
beam of
radiation.
The wiggler directs the
electron beam back and forth, or «wiggles» the
beam, to make it produce electromagnetic
radiation.
The tree - like formations in this molten salt formed under the high -
radiation of a transmission
electron microscope
beam; the jet of ions from the material could serve as a thruster for a nanosatellite
As these accelerated
electrons stream outward, they produce
beams of
radiation that we receive every time the
beam crosses our line of sight, like a lighthouse.
Freezing samples, typically to liquid nitrogen temperatures, protects them from the
beam's
radiation, and it shields biological samples from dehydration in the
electron microscope's vacuum chamber, preserving their structural integrity.
SESAME, which stands for Synchrotron - light for Experimental Science and Applications in the Middle East, is a light - source; a particle accelerator - based facility that uses electromagnetic
radiation emitted by circulating
electron beams to study a range of properties of matter.
We can deliver
radiation via photons or
electrons, using both traditional (
electron beam and clinical photon
radiation plans) and cutting - edge
radiation treatment plans (stereotactic
radiation therapy (SRT) and intensity - modulated
radiation therapy (IMRT)-RRB-.