A complete solutions for plasma systems, simulation and the resulted products on emerging technologies
Welcome to Plasmasys
Plasmasys offers the advanced plasma reactor systems as per the customer requirements in the CVD coating technology, semiconductor, solar energy, space and aerospace technology, ion source technology and the defense technological areas. The coating plasma devices are capable to produce the super-hard, super-thermally conductive, and wide band-gap materials. The reactor are advanced in terms of technology, efficiency and cost-effectiveness in the competitive market.
The plasma reactors developed by Plasmasys ranges from microwave (MHz to GHz range, solid state based microwave & magnetron based microwave generator technologies) to DC/ARC discharge plasma devices etc. having the power ranging from few hundreds of watt to 100s of kW. The developed plasma systems would be capable of producing the coated materials with the desired surface architecture based on the specific applications. The coated materials are the diamond, silicon and/or Gallium nitride in the polycrystalline, nano-crystalline and single crystalline forms.
Completed Plasmasys projects :
In brief, Research & development done so-far for customized commercial product by Plasmasys:
Engineering Plasma-Favorable Materials
Brief Descriptions: In aerospace and defense fields, the performances and lifetime of many electric propulsion devices are limited by many factors that are ion-induced sputtering, sputter erosion, plasma contamination, and secondary electron emission (SEE) etc. These issues can cause a direct impact on important thruster parameters due to the plasma material interactions (PMI). The solution to these PMI issues is necessary to develop and operate high-power thruster concepts, such as magnetoplasmadynamic (MPD) thrusters, Hall Effect thrusters, microwave thrusters and advanced fusion propulsion concepts etc. Engineering plasma-favorable materials can help in prolonged thruster lifetimes, higher thrusts/impulse and hence improved thruster efficiencies.
Produce Fusion Graded Plasma Resilient Materials
Brief Descriptions: In the recent years, the demand for clean and green energy is growing rapidly worldwide to replace the fossil fuel based energy production and more importantly to fight against the climate change. One of the most efficient and convenient replacements for the fossil fuel energy is the nuclear fusion plasma based energy generation generation. The high energy from the fusion plasma is extracted through the use of the reactor walls that are exposed to the extreme fusion plasma environments and so the wall materials are prone to degrade due to its sputtering/erosion by the bombardment of high energetic plasma particles. Hence there is an indispensable need for the fusion graded plasma resilient materials in the thermonuclear fusion plasma community.
Super-hard-Thermally conductive-wide bandgap materials
Brief Descriptions: In defence fields, the high power laser and microwave are applied in the directed energy weapon systems. The high power microwave generations require the material which are transparent to microwave/laser and also can withstand the high temperature, pressure, stress, strain and extreme plasma conditions. The electronic circuitry for high power and voltage operation in the defense system also require the materials which are super-hard, super thermally-conductive and is having wide band-gap. These parameters can help achieve the advanced defense systems..