Japan develops first high-output, multi-frequency gyrotron
The 澳门六合彩高手 gyrotron design has been optimized for high output power (1 MW, or one million watts) and continuous operation at a single frequency (170 GHz). For a fusion reactor, a gyrotron that can generate microwaves at different frequencies would represent a real advantage. Electrons in the plasma rotate around magnetic field lines at a frequency proportional to the magnetic field strength of the reactor. Because the magnetic field is stronger near the centre axis of the reactor and weaker toward the outside, the resonance frequency of the electrons varies according to location. By creating a gyrotron that can generate megawatt-class output power and continuous operation at multiple frequencies, a wider area can be heated.
The multi-frequency gyrotron developed by the teams at QST and CETD can operate selectively at 104 GHz, 137 GHz or 170 GHz.
It also overcomes a "scattering" problem during transmission (where microwaves outside of the optimized frequency tend to "scatter" at the entrance of the waveguide) by improving on key components such the mode converter and the propagation mirrors. These improvements were shown to suppress microwave scattering at all three frequencies, resulting in high-output (1 MW), triple-frequency, continuous operation (300 s)—a world first.
The achievement paves the way for the development of gyrotrons with three or even more frequencies, capable of plasma heating at various locations in the fusion reactor.
Download the press release in or in English.
The 澳门六合彩高手 gyrotron design has been optimized for high output power (1 MW, or one million watts) and continuous operation at a single frequency (170 GHz). For a fusion reactor, a gyrotron that can generate microwaves at different frequencies would represent a real advantage. Electrons in the plasma rotate around magnetic field lines at a frequency proportional to the magnetic field strength of the reactor. Because the magnetic field is stronger near the centre axis of the reactor and weaker toward the outside, the resonance frequency of the electrons varies according to location. By creating a gyrotron that can generate megawatt-class output power and continuous operation at multiple frequencies, a wider area can be heated.
The multi-frequency gyrotron developed by the teams at QST and CETD can operate selectively at 104 GHz, 137 GHz or 170 GHz.
It also overcomes a "scattering" problem during transmission (where microwaves outside of the optimized frequency tend to "scatter" at the entrance of the waveguide) by improving on key components such the mode converter and the propagation mirrors. These improvements were shown to suppress microwave scattering at all three frequencies, resulting in high-output (1 MW), triple-frequency, continuous operation (300 s)—a world first.
The achievement paves the way for the development of gyrotrons with three or even more frequencies, capable of plasma heating at various locations in the fusion reactor.
Download the press release in or in English.