Dust measurement with laboratory setup in 2023
Data and Resources
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+2500V Bias
CSV
Current acquired after VUV irradiation when biasing the dust sensor to +2500V.
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+3500V Bias
CSV
Current acquired after VUV irradiation when biasing the dust sensor to +3500V.
-
-2500V Bias
CSV
Current acquired after VUV irradiation when biasing the dust sensor to -2500V.
-
-3500V Bias
CSV
Current acquired after VUV irradiation when biasing the dust sensor to -3500V.
Tags
Cite this as (APA format)
Pacaud, R., Mateo-Velez, J.-C., & Ranvier, S. (2025). Dust measurement with laboratory setup in 2023 (Version 1) [Dataset]. Royal Belgian Institute for Space Aeronomy. https://doi.org/10.18758/la8iba3k
Author(s) | |
|---|---|
| Principal | |
| Other(s) |
Mateo-Velez, Jean-Charles |
| Contact | data-contact of Royal Belgian Institute for Space Aeronomy |
Technical info | |
|---|---|
| Is referenced by |
Pacaud, R., Matéo-Vélez, J.-C., Hess, S., & Ranvier, S. (2025). Measurement of bipolar charge distribution of lunar dust simulant under VUV irradiation. Planetary and Space Science, 263, 106120. https://doi.org/10.1016/j.pss.2025.106120 (Belgian institutional Open Access repository for Federal Science) |
Temporal features | |
|---|---|
| Starting |
2023 |
| Ending |
2023 |
Additional info | |
|---|---|
| Funding details |
European Union’s HORIZON Research and Innovation programme under grant agreement No 101082466 |
| Repository homepage | |
| Last Updated |
September 9, 2025 |
| Created |
September 9, 2025 |