Aevum Ion & Plasma Systems (AIPS) engineers high-energy density ionization, magnetohydrodynamic flow control, and precision plasma reactors for aerospace, semiconductor manufacturing, medical sterilization, and clean energy applications.
Our division operates across the full spectrum of ion-plasma technology, from low-temperature atmospheric plasmas for surface engineering to high-temperature magnetic confinement reactors for materials processing and experimental propulsion. With 14 patented reactor geometries and 3 commercialized systems, AIPS bridges fundamental plasma physics and industrial deployment.
Precision-engineered plasma systems tailored for high-value industrial and scientific workflows.
High-specific-impulse electric propulsion modules for LEO station-keeping, deep-space transfer, and debris mitigation satellites. Hall-effect and gridded ion variants available.
Inductively coupled plasma (ICP) reactors for hard coating, biocompatible surface activation, and superhydrophobic treatment of polymers and aerospace alloys.
Ultra-high vacuum reactive ion etching systems with AI-driven process control for sub-5nm node patterning, offering <0.8% critical dimension uniformity.
Cold atmospheric plasma jets and flow reactors for surgical instrument sterilization, wound debridement, and pathogen inactivation without thermal degradation.
Plasma gasification systems converting municipal and industrial waste into syngas and inert vitrified slag, achieving >99% carbon capture and zero landfill dependency.
ICP-MS and OES systems for trace element analysis, isotope ratio determination, and real-time process monitoring in metallurgy and environmental compliance.
From laboratory validation to industrial scale-up, our technology maturation follows rigorous Stage-Gate protocols.
High-current arc discharge thruster achieving 150 kN thrust density for heavy-lift orbital transfer stages. Thermal management and erosion mitigation under test.
Modular reactor arrays deployed across 12 automotive paint shops and 4 medical device sterilization facilities. Yield increase of 22% reported.
Low-temperature alternative to Haber-Bosch process. Achieving 0.8 mol/h conversion rates with plasma-activated heterogeneous catalysts.
Baseline performance metrics across our commercial reactor and propulsion lines.
| System / Module | Operating Pressure | Peak Temperature | Power Draw | Efficiency | Deployment |
|---|---|---|---|---|---|
| AIPS-X7 Hall Thruster | 10⁻⁴ Pa (Vacuum) | ~400 K (Propellant) | 2.5 kW | 68% | LEO / GEO Satellites |
| PlasmaCore™ ICP Reactor | 0.1 – 5 Torr | Up to 8,000 K | 15 kW | 82% | Semiconductor / Coatings |
| ColdFlow™ DBD Array | 1 atm (Ambient) | 300 – 350 K | 0.8 kW/m² | 74% | Medical / Automotive |
| PyroVortex™ Gasifier | 1.2 atm | Up to 12,000 K | 3.2 MW | 89% (Thermal) | Industrial Waste / Syngas |
Purpose-built infrastructure supporting simulation, prototyping, and manufacturing scale-up.
Whether you require custom reactor integration, propulsion consulting, or joint R&D development, our engineering team is ready to scale your plasma-based solutions.