Single Ended Electrostatic Accelerator
A Single Ended Electrostatic Accelerator uses static electric fields to accelerate ions to high speeds in a single direction, commonly used for materials analysis and ion implantation.
Tandem Accelerator
Tandem Accelerators accelerate particles twice, using a combination of negative ion sources and high-voltage terminals to achieve higher energies, ideal for nuclear physics experiments.
RFQ
The Radio Frequency Quadrupole (RFQ) accelerator is a type of linear accelerator that uses electric fields influenced by radio frequencies to focus and accelerate charged particles in a quadrupole field.
Cyclotron
Cyclotrons accelerate charged particles using a strong magnetic field and a high-frequency alternating voltage, crucial for applications in medical isotope production and industrial processing.
Synchrotron
Synchrotrons are circular accelerators that use magnetic fields to guide and accelerate charged particles to very high energies, enabling deep scientific investigations in fields like materials science and biology.
Plasma Wave Accelerators
Plasma Wave Accelerators utilize high-intensity laser pulses or electron beams to generate plasma waves that can accelerate charged particles to energies not achievable by traditional accelerators.
Ion and Electron Sources
Ion and Electron Sources are critical components of accelerators that produce and supply the charged particles required for acceleration, tailored for various applications from research to commercial uses.
Particle Beam Microscopes
Particle Beam Microscopes, such as electron or ion microscopes, use focused beams of charged particles to achieve high-resolution imaging and analysis of materials at the atomic level.