Two-Photon Absorption Laser Induced Fluorescence (TALIF) Of Neutral Xenon In A Hall Effect Thruster Plasma

Wegner, T.; Thompson, Seth J.; Williams, John D.; Yalin, Azer P.

doi:10.2514/6.2021-3391

Cited by 6 publications

(4 citation statements)

References 45 publications

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“…The time-resolved measurements show pronounced density variations over the period of the breathing mode, and the high contrast is likely connected to the quite strong and periodic current fluctuations of the studied thruster. While demonstrated here for Kr, the same scheme should be applicable to TALIF of Xenon also [25,29,30]. The scheme presented may be applicable to other oscillations also, as long as they are quite strongly periodic, up to a frequency of ∼ 1 MHz based on raw measurements needing ∼ 100 ns and requiring a minimum of 10 phase-bins, but this should be demonstrated experimentally.…”

Section: Discussionmentioning

confidence: 90%

“…Furthermore, no common electrostatic probe is available to provide neutral particle density fluctuations in the near field without perturbing the natural plasma state. The present work extends our past use of two photon absorption laser induced fluorescence (TALIF) for reliable measurement of neutral populations [25][26][27] -by probing the ground state -but now for temporally resolved measurements relative to the breathing mode oscillation. The main advantage of TALIF for density measurements is that by using two-photon absorption we can access the relatively large energy gaps between the ground state and excited states, thereby accessing ground state transitions with available tunable laser systems typically operating in the range of ∼ 200-250 nm [25][26][27][28][29][30][31][32][33].…”

mentioning

confidence: 76%

“…The present work extends our past use of two photon absorption laser induced fluorescence (TALIF) for reliable measurement of neutral populations [25][26][27] -by probing the ground state -but now for temporally resolved measurements relative to the breathing mode oscillation. The main advantage of TALIF for density measurements is that by using two-photon absorption we can access the relatively large energy gaps between the ground state and excited states, thereby accessing ground state transitions with available tunable laser systems typically operating in the range of ∼ 200-250 nm [25][26][27][28][29][30][31][32][33]. Two general disadvantages of TALIF detection are that signal-to-noise can be poor owing to small two-photon absorption cross-sections (and competing luminosity from the same emission lines) and that data is generally collected with low repetition-rate pulsed lasers (∼ 10-20 Hz).…”

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confidence: 76%

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Temporally resolved relative krypton neutral density during breathing mode of a hall effect thruster recorded by TALIF

Gottfried,

Antozzi,

Stienike

et al. 2024

J Electr Propuls

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A key issue in the development of theory and models for plasma propulsion devices is to describe the instabilities and fluctuations of the devices. It has been widely recognized that many Hall effect thrusters (HETs) exhibit oscillations at frequencies in the range of ∼ 20 kHz. These ionization-related oscillations are generally referred to as Breathing Mode oscillations and have been the subject of considerable research. Here, for the first time, we report direct temporally resolved measurements of the ground state neutral density variation during the period of the oscillation. We used the laser-based Two-Photon Absorption Laser Induced Fluorescence (TALIF) technique to measure neutrals within the plume of a 1.5 kW HET operating on krypton (Kr). Our TALIF scheme employs a frequency-doubled, pulsed dye laser operating at ∼ 212 nm to probe ground state Kr atoms. A novel phase-binning approach is used to recover the time-dependent signal by assigning the timing of each collected TALIF signal (laser shot) relative to the phase of the discharge current. We find that the neutral density fluctuates quite strongly over the period of the oscillation, and that this fluctuation leads the current fluctuation as expected.

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Section: Discussionmentioning

confidence: 90%

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confidence: 76%

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confidence: 76%

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Temporally resolved relative krypton neutral density during breathing mode of a hall effect thruster recorded by TALIF

Gottfried,

Antozzi,

Stienike

et al. 2024

J Electr Propuls

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“…This assumption can be problematic-particularly for trying to apply LIF schemes to measure time-resolved behavior in the ion dynamics [38]. With that said, resonant two-photon excitation techniques have recently emerged as an alternative to overcome this limitation, as these schemes can directly excite the ground state of the ions of interests [39].…”

Section: Laser Induced Fluorescencementioning

confidence: 99%

Foundations of plasmas as ion sources

Jorns¹,

Lafleur²

2023

Plasma Sources Sci. Technol.

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An overview of low temperature, partially-magnetized ion sources is presented. This class of devices is broadly characterized by plasma densities below 1019 m-3, electron temperatures below 100 eV, and magnetic field strength tailored such that electrons are magnetized whereas ions are not. The overarching approach is pedagogical, targeting an audience that does not necessarily have an expertise in low temperature devices. A tutorial is presented on the basic physics of operation of common ion sources including an overview of common methods for plasma generation and acceleration. A review of typical diagnostics and common applications of these plasma sources is also presented. Special attention is given to applications in plasma propulsion and materials processing. This class of ion sources is then discussed in the context of the current state of the field, key technical and scientific challenges, and future prospects.

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Krypton tagging velocimetry in the plume of a plasma hollow cathode

Gottfried,

Yalin

2023

Opt. Continuum

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Krypton tagging velocimetry (KTV) is an emerging flow diagnostic that investigates the bulk movement of high-speed, low-pressure gas flows. The present contribution expands the typical KTV method to the lower density (vacuum) conditions of interest in electric propulsion research. Our KTV scheme utilizes a two-photon (Write) excitation at 214.7 nm from a pulsed dye laser, followed by (Read) re-excitation of the ensuing metastable at 769.5 nm with an optical parametric oscillator. For the case of cold krypton gas expanding from a hollow cathode into vacuum, we find a bulk velocity of 452 ± 37 m/s and temperature of 20 ± 16 K. We also study the flow in the plume with the hollow cathode plasma operating for which we find bulk velocity of 1200 ± 130 m/s and temperature of 880 ± 370 K. Measurements are performed at background pressures down to ∼10−5 Torr.

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Two-Photon Absorption Laser Induced Fluorescence (TALIF) Of Neutral Xenon In A Hall Effect Thruster Plasma

Cited by 6 publications

References 45 publications

Temporally resolved relative krypton neutral density during breathing mode of a hall effect thruster recorded by TALIF

Temporally resolved relative krypton neutral density during breathing mode of a hall effect thruster recorded by TALIF

Foundations of plasmas as ion sources

Krypton tagging velocimetry in the plume of a plasma hollow cathode

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