Pre-Flight Assessment of Xenon Propellant Usage and Usage Uncertainty for the Psyche Mission

“…Consequently, the optimized Hall current distribution vector J H * can be deduced from equation (2)(3).…”

“…Consequently, a reasonable predefined distribution of the current becomes important. The drift current density is determined according to the following: (2)(3)(4) where ne denotes the electron number density, e the elementary charge equaling to 1.6 × 10 −19 C. V E×B is the drift velocity which can be calculated from the electric field E and magnetic field B as:…”

“…In light of the stated objectives, we employed the FEMM to simulate the inverse magnetostatic problem. Furthermore, the L-curve criterion was adopted to ascertain the optimal regularization parameter, denoted as The Tikhonov regularization introduced in this work diverged from the conventional Tikhonov regularization and so the L-curve criterion cannot be used to determine the value of λ in equation (2)(3). This is primarily attributed to the inclusion of three derivatives: Lrr, Lzz., and Lrz, rendering the solutions' seminorm indescribable.…”

“…It is noteworthy that equation (4-4) condenses the 2D constraint regularization term ∥LrrJ H ∥ 2 + 2∥LrzJ H ∥ 2 + ∥LzzJ H ∥ 2 from a previous equation (equation (2)(3))) into a onedimensional term ∥LJ H ∥ 2 , both of which exert similar constraint effects. However, the latter offers a more streamlined presentation.…”

“…In recent times, Hall thrusters have emerged as the predominant form of electric propulsion devices, playing a vital role in various space missions, including on-orbit stationkeeping, orbit transferring, and interplanetary voyages of spacecraft [1][2][3][4]. However, as the applications have proliferated in recent years, issues caused by orbit-ground discrepancies of Hall the crossed electric and magnetic field region, the electrons will move in the azimuthal direction of the thruster's annular channel and constitute the Hall drift current.…”

Utilizing the L-curve criterion for the inverse magnetostatic problem of Hall drift current estimation

“…Consequently, the optimized Hall current distribution vector J H * can be deduced from equation (2)(3).…”

“…Consequently, a reasonable predefined distribution of the current becomes important. The drift current density is determined according to the following: (2)(3)(4) where ne denotes the electron number density, e the elementary charge equaling to 1.6 × 10 −19 C. V E×B is the drift velocity which can be calculated from the electric field E and magnetic field B as:…”

“…In light of the stated objectives, we employed the FEMM to simulate the inverse magnetostatic problem. Furthermore, the L-curve criterion was adopted to ascertain the optimal regularization parameter, denoted as The Tikhonov regularization introduced in this work diverged from the conventional Tikhonov regularization and so the L-curve criterion cannot be used to determine the value of λ in equation (2)(3). This is primarily attributed to the inclusion of three derivatives: Lrr, Lzz., and Lrz, rendering the solutions' seminorm indescribable.…”

“…It is noteworthy that equation (4-4) condenses the 2D constraint regularization term ∥LrrJ H ∥ 2 + 2∥LrzJ H ∥ 2 + ∥LzzJ H ∥ 2 from a previous equation (equation (2)(3))) into a onedimensional term ∥LJ H ∥ 2 , both of which exert similar constraint effects. However, the latter offers a more streamlined presentation.…”

“…In recent times, Hall thrusters have emerged as the predominant form of electric propulsion devices, playing a vital role in various space missions, including on-orbit stationkeeping, orbit transferring, and interplanetary voyages of spacecraft [1][2][3][4]. However, as the applications have proliferated in recent years, issues caused by orbit-ground discrepancies of Hall the crossed electric and magnetic field region, the electrons will move in the azimuthal direction of the thruster's annular channel and constitute the Hall drift current.…”

Utilizing the L-curve criterion for the inverse magnetostatic problem of Hall drift current estimation

On-orbit mission overview of the low power hall thruster propulsion system aboard venμs satellite