We offer the ideal solution for scientific accelerators

Particle accelerators play an important role in many questions of physical  basic research.

How is matter constructed internally?
How can plasma be heated in order to imitate the fusion process of the sun?
How can intensive x-ray radiation be reached with ultrashort wavelength?

In order to be able to answer such questions loaded particles are accelerated through electric fields. Acceleration of the particles in the form of electrons and ions is done by means of quickly changing fields, i.e. the microwaves.

In order to understand how matter is constructed internally, counterplaced particles are accelerated to high energies. In a collision track the particles hit each other destroying themselves. The fragments allow conclusions  on the construction of smallest parts.

When imitating the sun process plasma is heated up to a level that hydrogen protons merge with each other and melt to helium cores.

For producing intensive short wave x-ray radiation electrons are accelerated and deviated to a curved track. This produces braking radiation whose wavelength depends on the energy of the elctrons.

The loaded particles are accelerated in cavities or in a Tokomak Torus Ring. The necessary power for the acceleration of the parts is normally produced by transmitting valves. These valves react sensitively to reflections and therefore have to be insulated. Changes in the availability of the particles or faulty adaption of the cavities may lead to that unused microwave power is reflected back to the transmitting valve.

The AFT solutions: Circulators, insulators, absorbers, fast ferrite tuners and I-Q-modulators.
For transport of the microwave and the insulation of the transmitting valve  as well as for the adaption of the acceleration chambers our high-tech products  can be installed in general passive network or distribution systems or in high speed tuning networks and thus enable a procedure/sequence without any problems.