Electrostatic accelerators are critical for nuclear physics research, radiation effect experiments and isotope preparation. High electrostatic fields accelerate charged particles into high-energy beams for nuclear structure analysis, semiconductor radiation testing and nuclear detector calibration in nuclear universities, key national laboratories and nuclear research institutes.
1. Deliver ultra-stable DC high voltage for accelerating tubes to maintain continuous particle acceleration with precise energy output;
2. Supply matched high voltage for ion sources, focusing lenses and analyzing magnets to ensure beam collimation and energy purity;
3. Provide bias high voltage for nuclear detectors to enhance radiation signal sensitivity.
Ultra-high stability, low ripple & low noise, excellent long-term reliability, customizable ultra-high voltage schemes and complete interlock protection for customized scientific research demands.
Ultra-stable high voltage builds strong electric fields inside acceleration tubes. Charged particles from ion sources gain high energy and bombard target materials to support nuclear structure research, semiconductor radiation testing and isotope production.
University nuclear physics experiments, semiconductor radiation effect testing, isotope preparation, nuclear detector calibration and space radiation environment simulation.
