Corresponding Dataset for "Ganymede's Ionosphere observed by a Dual-Frequency Radio Occultation with Juno"
| Main Authors: | Dustin Buccino, Marzia Parisi, Edoardo Gramigna, Luis Gomez-Casajus, Paolo Tortora, Marco Zannoni, Andrea Caruso, Ryan S. Park, Paul Withers, Paul Steffes, Amoree Hodges, Steve Levin, Scott Bolton |
|---|---|
| Format: | info dataset Journal |
| Terbitan: |
, 2022
|
| Online Access: |
https://zenodo.org/record/6206226 |
Daftar Isi:
- Corresponding Dataset for "Ganymede’s Ionosphere observed by a Dual-Frequency Radio Occultation with Juno" README FILE Dustin Buccino February 21, 2022 Jet Propulsion Laboratory California Institute of Technology ============================================================================= INTRODUCTION ============================================================================= This dataset contains processed radio science data and results of the Juno Ganymede radio occultation. This dataset is provided in order to supplement the submitted article to the "Geophysical Research Letters" journal: Buccino, D.R., et al (2022), Ganymede’s Ionosphere observed by a Dual-Frequency Radio Occultation with Juno, Geophysical Research Letters, submitted February 2022. Please note the raw data used in this analysis are not provided in this supplementary dataset. The raw Juno Gravity Science Data may be found at the Planetary Data System: Buccino, D. R. (2016). Juno jupiter gravity science raw data set V1.0, JUNO-J-RSS-1 JUGR-V1.0, NASA planetary data system (PDS). Retrieved from https://atmos.nmsu.edu/PDS/data/jnogrv_1001/ ============================================================================= ARCHIVE INFORMATION ============================================================================= This archive contains two files within the root directory. ROOT `- JunoG34OccData_Egress_v1.csv This data file contains the EGRESS data relevant to the radio occultation. The data is a timeseries of impact parameter, sky sky frequency at X-band and Ka-band, the dual-frequency combination, the calibrated dual-frequency, Total Electron Content, Electron density, and 1-sigma electron density uncertainty. `- JunoG34OccData_Ingress_v1.csv This data file contains the INGRESS data relevant to the radio occultation. The data is a timeseries of impact parameter, sky sky frequency at X-band and Ka-band, the dual-frequency combination, the calibrated dual-frequency, Total Electron Content, Electron density, and 1-sigma electron density uncertainty. ============================================================================= FILE FORMAT ============================================================================= This dataset contains only a comma-separated text files which are given with the "*.csv" extension. CSV FILES ------------------------------------------------------------------------- The Comma-Separated Value (CSV) files are plain-text files. Values in each data file are separated using a comma ",". Each column is defined by a header row which provides a description of each column. ============================================================================= ACKNOWLEDGMENTS ============================================================================= This work was carried out at the Jet Propulsion Laboratory, California Institute of Technology, under contract with the National Aeronautics and Space Administration. Government sponsorship acknowledged. EG, LGC, PT, MZ and AC are grateful to the Italian Space Agency (ASI) for financial support through Agreement No. 2018-25-HH.0 in the context of ESA's JUICE mission, and Agreement No. 2017-40-H.1-2020, and its extension 2017-40-H.02020-13-HH.0, for ESA’s BepiColombo and NASAs Juno radio science experiments. EG is grateful to "Fondazione Cassa dei Risparmi di Forlì" for financial support of his PhD fellowship. PS and AH were supported by NASA Contract NNM06AA75C from the Marshall Space Flight Center under subcontract 699054X from Southwest Research Institute. ============================================================================= PRIMARY POINT OF CONTACT ============================================================================= Dustin Buccino Jet Propulsion Laboratory Planetary Radar and Radio Sciences (818) 393 - 1072 Dustin.R.Buccino@jpl.nasa.gov ============================================================================= ACRONYMS AND ABBREVIATIONS ============================================================================= ASCII American Standard Code for Information Interchange DOY Day of year DSN Deep Space Network JPL Jet Propulsion Laboratory NAIF Navigation Ancillary Information Facility NASA National Aeronautics and Space Administration PDS Planetary Data System RS Radio Science RSS Radio Science Subsystem SIS Software Interface Specification TXT Text file UTC Universal Time, Coordinated