PDS_VERSION_ID = PDS3 LABEL_REVISION_NOTE = "B.TRANTHAM 2017-05-16, B.TRANTHAM 2019-03-28, updated dataset based on review comments; 20200120 RChen/EN not sure if ingest software would get the date" RECORD_TYPE = STREAM OBJECT = DATA_SET DATA_SET_ID = " RO-C-RPCIES-3-PRL-V2.0" OBJECT = DATA_SET_MISSION MISSION_NAME = "INTERNATIONAL ROSETTA MISSION" END_OBJECT = DATA_SET_MISSION OBJECT = DATA_SET_REFERENCE_INFORMATION REFERENCE_KEY_ID = BURCHETAL2007 END_OBJECT = DATA_SET_REFERENCE_INFORMATION OBJECT = DATA_SET_INFORMATION DATA_SET_NAME = " ROSETTA-ORBITER 67P RPCIES 3 PRL V2.0" DATA_SET_COLLECTION_MEMBER_FLG = "N" DATA_OBJECT_TYPE = {TABLE, HEADER} START_TIME = 2014-03-24T20:44:59.266 STOP_TIME = 2014-11-19T23:54:10.365 DATA_SET_RELEASE_DATE = 2017-06-09 PRODUCER_FULL_NAME = "BRAD TRANTHAM" DETAILED_CATALOG_FLAG = "N" ABSTRACT_DESC = " This dataset contains CALIBRATED DATA of the Rosetta RPCIES instrument taken during the Prelanding phase (PRL). The target of this phase was comet 67P/CHURYUMOV-GERASIMENKO 1 (1969 R1). Included are the data taken between 21 Jan 2014 and 19 Nov 2014. This version of the data has been reprocessed to remove an error introduced in the previous version." DATA_SET_DESC = " Data Set Overview ================= The following describes the nature of instrument operation during the various periods for which IES data are available in this submission. In all cases the data are calibrated differential electron and ion energy flux as function of energy, azimuth (direction in the instrument symmetry plane) and elevation (angle above or below the symmetry plane). Post hibernation commissioning: IES turned on 24 march 2014 for Low Voltage checkout, operated ~19:50 to ~20:50 UTC (no useful science data), High Voltage checkout (all times UTC): 22:44:59 to 22:53:31; 25 March: 00:42:51 to 03:37:15, 21:34:35 to 23:56:59; 26 March: 00:41:15 to 01:08:59 and 01:16:27 to 02:09:15 (little useful science data except a small amount of solar wind is evident in the early part of the 25 March 2014 and intermittently in 26 March 2014 files). Approach phase: 9 May 2014 15:23:00 to 20 May 11:25:41. Little useful science except occasional solar wind 11 May, 18:00; 12 May, 08:00; 13, 14, May, intermittently; 15 May from 15:00 to 24:00; 16 May 0:00 to 03:00; 18, 19 May, intermittently; 23 May 0:00 to 24:00; 24 May, 0:00 to 3:30; 26 May, 13:00 to 24:00; 27 May, intermittently from 0:00 to 12:00; 29 May, intermittently, 13:00 to 24:00; 30 May, intermittently from 0:00 to 6:00; 7 June, 23:00 to 24:00; 8 June, 0:00 to 11:00; 11 June, 1:00 to 10:00; 20 June, intermittently; 21 June, 2:00 to 3:00; 22 June, 0:30 to 10:00; 25 June, 15:00 to 17:00; 26 June, intermittently; 27 June, 0:00 to 4:30; 28 June, 19:30 to 20:00; 6 July, 10:00 to 14:00; 7 July, 4:00 to 8:00; 12 July, 3:30 to 7:30; 18 July, 18:00 to 18:30; 20 July, 5:30 to 6:00; 3 August, intermittently between 8:00 and 10:30; 5 August, intermittently after 13:00; 6 August, intermittently after 12:00; 7 August, intermittently between 6:00 and 10:00; 8 August, 3:00 to 5:00; 10 August, 8:00 to 10:30; 11 August, 16:00 to 17:30; 12 August, intermittently; 13 August, 8:30 to 10:30; 14 August, 3:30 to 5:00; 15 August, intermittently; 16 August, intermittently between 13:00 and 24:00; 17 August, between 8:30 and 10:30; 18 August, 0:00 to 2:00. 19 August: Beginning of detection of low energy pickup ions in addition to solar wind (S/C to comet = 78 km, S/C to Sun = 3.5 AU). 20 - 22 August, intermittent solar wind; 24 August, 9:00 to 10:00 solar wind; 25 August, 0:00 to 1:30 solar wind; 26 August, intermittent solar wind; 27 August, intermittent solar wind; 28 August, intermittent solar wind, with possible shock at ~18:00, low energy pickup ions; 29 August, intermittent solar wind, low energy pickup ions; 30 August, intermittent solar wind, low energy pickup ions; 31 August, intermittent solar wind, low energy pickup ions; 1 September, solar wind until ~7:00 followed by the result of interplanetary energetic particles through 2 September. IES was turned off at ~15:45 until 9:00 on 5 September when solar wind was observed; 6 September, intermittent solar wind; 7 September, intermittent solar wind; 8 September, solar wind observed from 0:30 through the remainder of the day; 9 September, solar wind and low energy pickup ions; 10 September, solar wind and low energy pickup ions; 11 September, solar wind and low energy pickup ions and a possible shock at 10:00; 12 September, solar wind and low energy pickup ions (a gap in data occurred around 23:00); 13 September, solar wind and low energy pickup ions; 14 September, solar wind and low energy pickup ions; 15 September, solar wind; 16 September, solar wind; 17 September, solar wind; 18 September, solar wind, with a data gap from ~11:15 to 17:45; 19 September solar wind with low energy pickup ions; 20 September, solar wind with low energy pickup ions, with a data gap ~12:00 to 12:15; 21 September, solar wind with low energy pickup ions, 22 September, solar wind with low energy pickup ions; 23 September, solar wind with low energy pickup ions; 24 September, solar wind; 25 September, intermittent solar wind plus possible penetrating radiation; 26 September, intermittent solar wind plus possible penetrating radiation; 27 September, intermittent solar wind; 28 September, intermittent solar wind; 29 September, intermittent solar wind with data gap from ~6:30 to 11:45; 30 September, solar wind and low energy pickup ions with brief data gap ~10:40; 1 - 9 October, solar wind and low energy pickup ions; 10 October, solar wind and low energy pickup ions with data gap ~2:15 - 9:00; 11 - 17 October, solar wind with low energy pickup ions; 18 October, solar wind with low energy pickup ions with short data gaps ~5:00 to 7:00; 19 October, solar wind with low energy pickup ions with short data gap ~ 2:10; 20 October, solar wind and low energy pickup ions; 21 October, solar wind and low energy pickup ions with data gap 1:45 - 15:50 22 October, solar wind with low energy pickup ions; 23 October, solar wind and low energy pickup ions with high-energy pickup ions; 24 - 29 October, solar wind and low energy pickup ions; 30 October, solar wind and low energy pickup ions with data gap ~1:45 - 4:15; 31 October, intermittent solar wind; 1 November, intermittent solar wind with short data gaps 6:45, 15:15, 16:30, and 17:50; 2 - 6 November, intermittent solar wind; 7 - 8 November, intermittent solar wind and pickup ions; 9 - 19 November, intermittent solar wind and pickup ions; Processing ========== All Rosetta Plasma Consortium (RPC) data packets are transmitted together during downlinks with Rosetta. RPC data are retrieved from the Data Distribution System (DDS) at European Space Operations Centre (ESOC) to a central RPC data server at Imperial College London. Data for IES is copied from the RPC central data server by IESGS at Southwest Research Institute. The pipeline processing software is the IES Ground System (IESGS). IESGS extracts IES CCSDS packets from the RPC collective data files stored on the RPC central data server at Imperial College. These packets are used to build ion and electron data products. The data products are grouped by date and written out to PDS compliant archive data files. One data file is created for each day. IESGS also generates the labels for the archive data files. IES science products, archive and label files, and limited spectrograms are available to team scientists on the IESGS website. For information on how the calibrated data files are created from edited data files, please see DOCUMENT\FLUX_CALCULATION\ FLUX_CALCULATION.PDF. Coordinate System ================= In order to determine IES pointing, attitude data for the Rosetta spacecraft is obtained through SPICE kernels. Level 5 files use Comet-centered Solar EQuatorial (CSEQ) as the reference frame to specify the velocity direction components. This is a common frame used in many other data sets and is referenced as '67P/C-G_CSEQ' in SPICE. SUB_SPACECRAFT_LATITUDE, SUB_SPACECRAFT_LONGITUDE are given in the Cheops reference frame. These parameters are computed at time t=START_TIME. Distances are given in km, angles in degrees. Version History ================= Version 1 - Initial release Version 2 - Reprocessed to remove an error in the data" CONFIDENCE_LEVEL_NOTE = " Confidence Level Overview ========================= This dataset is used by the IES science team after processing. This is done to ensure that the archived data contains good, valid products. Caveat about using IES Level 3 Differential Energy Flux data: The background subtraction technique used in the production of the Level 3 Differential Energy Flux data does not work well for certain modes and as a result, the flux values may be slightly different from nominal. Please contact the IES team before using the data. Once the background subtraction issue is resolved, the IES team will deliver updated data. Review ====== This archival data set was examined by the IES science team prior to submission to the NASA Planetary Data System (PDS) and ESA Plantetary Science Archive (PSA). It was reviewed by PDS, PSA, and the Rosetta data archive working group. Limitations =========== None." ARCHIVE_STATUS = "LOCALLY ARCHIVED" CITATION_DESC = " Trantham, B., ROSETTA-ORBITER 67P RPCIES 3 PRL V2.0, RO-C-RPCIES-3-PRL-V2.0, ESA Planetary Science Archive and NASA Planetary Data System, 2019" DATA_SET_TERSE_DESC = " This dataset contains CALIBRATED DATA of the Prelanding phase (PRL). Included are the data taken between 20 Jan 2014 and 19 Nov 2014." END_OBJECT = DATA_SET_INFORMATION OBJECT = DATA_SET_TARGET TARGET_NAME = "67P/CHURYUMOV-GERASIMENKO 1 (1969 R1)" END_OBJECT = DATA_SET_TARGET OBJECT = DATA_SET_HOST INSTRUMENT_HOST_ID = RO INSTRUMENT_ID = "RPCIES" END_OBJECT = DATA_SET_HOST END_OBJECT = DATA_SET END