Litcius/Paper detail

Demonstration of electric micropropulsion multimodality

Denis B. Zolotukhin, S. R. P. Bandaru, Keir Daniels, I. I. Beilis, Michael Keidar

2022Science Advances42 citationsDOIOpen Access PDF

Abstract

Electric propulsion has become popular nowadays owing to the trend of miniaturizing the size and mass of satellites. However, the main drawback of the most popular approach—Hall thrusters—is that their efficiency and thrust-to-power ratio (TPR) markedly deteriorate when its size and power level are reduced. Here, we demonstrate an alternative approach—a minute low-power (<50 W), lightweight (~100 g), two-stage propulsion system. The system is based on a micro-cathode vacuum arc thruster with magnetoplasmadynamic second stage (μCAT-MPD), which achieves the following parameters: a thrust of up to 1.7 mN at a TPR of 37 μN/W and an efficiency of ~50%. A μCAT-MPD system, in addition to “traditional” inverse, displays the anomalous direct (growing) “TPR versus specific impulse I sp ” trend at high I sp values and allows multimodality at high efficiency.

Topics & Concepts

Specific impulseElectrically powered spacecraft propulsionThrustPropulsionImpulse (physics)InversePower (physics)Computer scienceAerospace engineeringMaterials sciencePhysicsEngineeringMathematicsThermodynamicsQuantum mechanicsGeometryPlasma Diagnostics and ApplicationsVacuum and Plasma ArcsMagnetic Field Sensors Techniques
Demonstration of electric micropropulsion multimodality | Litcius