microtron

Although small, Microtron is very resourceful and very supportive of all team members.

The last member of the original team is Microtron, Mari's robot tutor.

In a microtron, due to the electrons different relativistic mass, the particle paths are different for each pass.

The classic microtron was invented by Vladimir Veksler.

The world's largest racetrack-microtron is the Mainz Microtron.

A racetrack microtron is a larger-scale microtron which uses two electromagnets instead of one.

In contrast to many high energy accelerators the Mainz Microtron produces a continuous electron beam, which is very well defined both in terms of the electrons energies and their position.

Currently it is located at Mainz Microtron facility, where it is being used by the A2 Collaboration for a diverse program of measurements using energy tagged Bremsstrahlung photons.

Kapitsa's contributions to physics were in the areas of applied electrodynamics and accelerator physics; he is known, in particular, for his work on the microtron, a device for producing electron beams.

A microtron is a type of particle accelerator concept originating from the cyclotron in which the accelerating field is not applied through large D-shaped electrodes, but through a linear accelerator structure.

After several more encounters with beings such as Doctor Doom; the heroine Wasp and villain Arcade, Microtron and Nanotron sacrifice themselves to reanimate Biotron's consciousness in the Micronauts' new vessel.

The Mainz Microtron (German name: Mainzer Mikrotron), abbreviated MAMI, is an electron accelerator of the microtron type, in which electrons are accelerated to relativistic velocities.

Since 1944 he worked in the field of accelerator physics, where he became famous for the invention of the microtron, and the development of the synchrotron in independence to Edwin McMillan, pursuing the development of modern particle accelerators.

Other projects in Europe include the development of several FELs at the Italian national laboratories in Frascati, and one is planned at the University of Twente, The Netherlands, based on a racetrack microtron accelerator equipped with a photocathode electron gun.

A new injector, a 40 MeV microtron, was installed as an injector in 1974, replacing the original MURA accelerator that had been used until that point, and within a year currents exceeded 150 mA, with typically over 30 hours of beam per week.

Electrons are injected via a septum magnet into the ring from a 100 MeV race-track microtron in 4-5 mA pulses, and captured by a 105 MHz RF system which bunches and accelerates the electrons as they pass through the RF cavity.