Nanotube cathode beats large, pricey laser

(Nanowerk News) Scientists are a step closer to building an intense electron beam source without a laser. Using the High-Brightness Electron Source Lab at DOE’s Fermi National Accelerator Laboratory, a team led by scientist Luigi Faillace of RadiaBeam Technologies is testing a carbon nanotube cathode — about the size of a nickel — that completely eliminates the need for a room-sized laser system. Tests with the nanotube cathode have produced beam currents a thousand to a million times greater than the one generated with a large, pricey laser system.
The technology has extensive applications in medical equipment and national security, since an electron beam is a critical component in generating X-rays.
carbon nanotube cathode
The dark area of this cathode is made of millions of nanotubes that function like little lightning rods.
While carbon nanotube cathodes have been studied extensively in academia, Fermilab is the first facility to test the technology within a full-scale setting.
"People have talked about it for years," said Philippe Piot, staff scientist at Fermilab and professor at Northern Illinois University, "but what was missing was a partnership between people that have the know-how at a lab, a university and a company."
Fermilab was sought out to test the experimental cathode because of its capability and expertise for handling intense electron beams, one of relatively few labs that can support this project. A U.S. Department of Energy Small Business Innovation Research grant funds the RadiaBeam-Fermilab collaboration.
The new cathode appears at first glance like a smooth black button, but at the nanoscale it resembles, in Piot's words, "millions of lightning rods." When a strong electric field is applied, it pulls streams of electrons off the surface of the cathode, creating the electron beam. The exceptional strength of carbon nanotubes prevents the cathode from being destroyed.
Traditionally, accelerator scientists use lasers to strike cathodes in order to eject electrons through photoemission. The electric and magnetic fields of the particle accelerator then organize the electrons into a beam. The tested nanotube cathode requires no laser: it only needs the electric field already generated by an accelerator to siphon the electrons off, a process dubbed field emission.
Source: Oak Ridge National Laboratory
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