The effect of surface contamination of tiny satellite on DC probe ionosphere measurement

Fang, H. K.; Chen, W. H.; Chen, Alfred B.; Oyama, K.-I.

doi:10.1063/1.5052489

Cited by 12 publications

(9 citation statements)

References 17 publications

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“…Surface contamination is a serious issue for Langmuir probe operation. When a probe is covered by a thin contamination layer, this layer acts as a capacitor C with a resistor R in parallel that will charge and discharge with an RC time constant during or between consecutive sweeps (Fang et al, 2018). The same phenomenon can happen at the surface of the S/C body.…”

Section: Effects Of the Contaminationmentioning

confidence: 99%

“…Another possibility is to perform increasing and decreasing sweeps with different duration as in Lebreton et al (2006) and to model the contamination layer as an R-C parallel circuit as in Piel et al (2001) and Fang et al (2018). If properly modelled and combined with a database of PIC simulations of contaminated probe surfaces for different R, C and plasma parameter values, this could be used to retrieve the uncontaminated I-V curve.…”

Section: Effects Of the Contaminationmentioning

confidence: 99%

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Laboratory measurements of the performances of the Sweeping Langmuir Probe instrument aboard the PICASSO CubeSat

Ranvier

Lebreton²

2023

Geosci. Instrum. Method. Data Syst.

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Abstract. The Sweeping Langmuir Probe (SLP) is one of the instruments on board the triple-unit CubeSat PICASSO, an ESA in-orbit demonstrator launched in September 2020, which is flying at about 540 km altitude. SLP comprises four small cylindrical probes mounted at the tip of the solar panels. It aims to perform in situ measurements of the plasma parameters (electron density and temperature together with ion density) and of the spacecraft potential in the ionosphere. Before the launch, the instrument, accommodated on an electrically representative PICASSO mock-up, was tested in a plasma chamber. It is shown that the traditional orbital-motion-limited collection theory used for cylindrical Langmuir probes cannot be applied directly for the interpretation of the measurements because of the limited dimensions of the probes with respect to the Debye length in the ionosphere. Nevertheless, this method can be adapted to take into account the short length of the probes. To reduce the data downlink while keeping the most important information in the current-voltage characteristics, SLP includes an on-board adaptive sweeping capability. This functionality has been validated in both the plasma chamber and in space, and it is demonstrated that with a reduced number of data points the electron retardation and electron saturation regions can be well resolved. Finally, the effect of the contamination of the probe surface, which can be a serious issue in Langmuir probe data analysis, has been investigated. If not accounted for properly, this effect could lead to substantial errors in the estimation of the electron temperature.

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Section: Effects Of the Contaminationmentioning

confidence: 99%

Section: Effects Of the Contaminationmentioning

confidence: 99%

Laboratory measurements of the performances of the Sweeping Langmuir Probe instrument aboard the PICASSO CubeSat

Ranvier

Lebreton²

2023

Geosci. Instrum. Method. Data Syst.

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show abstract

“…Surface contamination is a serious issue for Langmuir probe operation. When a probe is covered by a thin contamination layer, this layer act as a capacitor C with a resistor R in parallel that will charge and discharge with an RC time constant during or between consecutive sweeps (Fang et al, 2018). The same phenomenon can happen at the surface of the S/C body.…”

Section: Effects Of the Contamination 235mentioning

confidence: 99%

Comment on gi-2022-7

2022

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“…This is readily achievable in a laboratory setting, for example by using the plasma vessel as the counter electrode. However, this is difficult to meet in the space environment, especially when carrying tiny aircraft: usually, there is no conductor with a large enough area to act as a counter electrode [14][15][16]. Compared with the single probe method, the double probe method is always in a floating state when working, that is, no counter electrode is required.…”

Section: Introductionmentioning

confidence: 99%

A bidirectional long short-term memory network for electron density diagnostic with double probe

Wang,

Zhou,

et al. 2023

Meas. Sci. Technol.

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The double probe method is a plasma in situ diagnostic technology. Compared with Langmuir single probe, it has less influence on the background plasma and can obtain relatively accurate results. However, it can only collect some high-energy electrons in the plasma, and cannot directly measure the electron density (Ne). In this paper, a double probe Ne diagnosis approach based on Bidirectional Long Short-Term Memory (BLSTM) is proposed. After the training is completed, the accurate prediction of Ne can be realized by using the double probe data, which solves the problem that the double probe cannot directly measure Ne. In the plasma simulation environment of the laboratory, the plasma source is controlled to generate plasma with different densities, the current–voltage (I–V) characteristic data of the double probe at the same position are used as features, and the Ne calculated by the triple probe is used as the label to train the BLSTM model. The mean square error (MSE) is used as the loss function, the root mean square error (RMSE) and the prediction accuracy (Acc) are used as the evaluation indicators. The BLSTM network is evaluated according to the evaluation indicators and the hyperparameters are adjusted. After about 100 iterations, the RMSE of the BLSTM network to Ne can be reduced to about 0.03. The final network is evaluated on a separate test set. The results show that in the range of 2×1013 m-3 to 3×1014 m-3, the model can predict Ne more than 95% accurately. This approach extends the application of the double probe method and is of great significance for improving the accuracy of plasma diagnostic methods. If it is applied to ionospheric plasma diagnosis, it can reduce the amount of data collected by the probe and improve the spatial resolution of ionospheric detection.

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The effect of surface contamination of tiny satellite on DC probe ionosphere measurement

Cited by 12 publications

References 17 publications

Laboratory measurements of the performances of the Sweeping Langmuir Probe instrument aboard the PICASSO CubeSat

Laboratory measurements of the performances of the Sweeping Langmuir Probe instrument aboard the PICASSO CubeSat

Comment on gi-2022-7

A bidirectional long short-term memory network for electron density diagnostic with double probe

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