Fusion Application
Fusion reactors such as ITER and JET produce plasma with very high electron temperatures about few keV. Operation of an energy-generating fusion reactor is challenging, since not only must the deuterium and tritium nuclei be heated to very high temperatures, but the hot gases must also be confined in a small enough volume for a statistically large number of D-T collisions to occur.
Fusion Application
Fusion plasma diagnostics are essential for providing real-time, detailed information about plasma behavior, ensuring optimal performance, and guiding design improvements for fusion reactors. By combining these diagnostic techniques, researchers can gain a comprehensive understanding of plasma parameters, enhance plasma control, and better manage the complex dynamics within fusion devices.
Impedans Solution for fusion plasma measurement
Impedans offers a range of diagnostic tools for plasma and RF measurements. The Impedans Langmuir Probe System measures the key plasma parameters such as plasma potential, charged particle densities (upto 10 13 cm -3 ) and the electron temperature (upto 15 eV). The Semion retarding field energy analyzer system measures the key ion parameters such as ion flux and ion energy distribution function upto 3000 eV. Our Octiv VI probe measures RF parameters upto 90 kW. These VI probes are also widely used as a calibration and verification standards for RF, providing a precise and reliable method for measuring and comparing RF properties.
