Physical Review D.
Vol. 99.
2019.
Gradient-drift instability applied to Hall thrusters
The stability of gradient-drift waves in a Hall-type plasma thruster is investigated within the framework of two-fluid ideal magnetohydrodynamics. The analysis is based on the dispersion relation, which includes the effects of equilibrium electron current, finite ion flow velocity, electron inertia, electron temperature, magnetic field and plasma density gradients, and also the Debye length effects. The features of unstable modes are calculated along the thruster channel Three spatially separated areas of instability are revealed: (i) the near-anode region with long-wavelength azimuthal oscillations, (ii) the main part of the acceleration channel with short-wavelength axial modes destabilized by macroscopic ion flow, and (iii) the plume region characterized by short-wavelength oblique waves.
Authors
Marusov N.A.
1,
2,
3
,
Sorokina E.A.
2,
3
,
Lakhin V.P.
2,
3
,
Ilgisonis V.I.
3,
4
,
Smolyakov A.I.
2,
3,
5
Publisher
IOP, Bristol, United Kingdom
Number of issue
1
Language
English
Status
Published
Number
015002
Volume
28
Year
2019
Organizations
- 1 Moscow Inst Phys & Technol, Inst Sky Lane 9, Moscow 141700, Russia
- 2 NRC Kurchatov Inst, 1 Kurchatov Sq, Moscow 123182, Russia
- 3 RUDN Univ, Peoples Friendship Univ Russia, 3 Ordzhonikidze St, Moscow 117198, Russia
- 4 State Atom Energy Corp ROSATOM, 24 Bolshaya Ordynka St, Moscow 119017, Russia
- 5 Univ Saskatchewan, 116 Sci Pl, Saskatoon, SK S7N 5E2, Canada
Keywords
drift waves; instabilities; Hall thrusters; electric propulsion; two-fluid MHD; [ExB]-flow; gradient-drift modes
Date of creation
04.02.2019
Date of change
06.09.2021
Share
Other records
Schole.
Center for Ancient Philosophy and the Classical Tradition.
Vol. 13.
2019.
P. 382-385