PDS_VERSION_ID                     = PDS3
LABEL_REVISION_NOTE                = "
   2016-09-15    J. Mukherjee   Creation
   2016-09-27    A. Raugh       Edited for minor keyword issues and
                                format.
   2017-03-30    A. Raugh       Added text regarding coverage as part of
                                lien resolution.
   20230125 RChen/EN work around catalog ingest. Delete this line next time.
  "
RECORD_TYPE                        = STREAM
INSTRUMENT_HOST_NAME               = "NEW HORIZONS"
OBJECT                             = DATA_SET
  DATA_SET_ID                      = "NH-X-SWAP-5-DERIVED-SOLARWIND-V1.0"

  OBJECT                           = DATA_SET_INFORMATION
    ARCHIVE_STATUS                 = SUPERSEDED

    START_TIME                     = 2008-10-10T21:07:14
    STOP_TIME                      = 2016-06-22T12:17:06

    DATA_SET_DESC                  = "

    Data Set Overview
    =================
    This data set includes the time information for a given pair of
    sweeps, original level 2 data file, the solar wind speed proton
    density, proton speed, proton temperature, proton dynamic pressure,
    proton thermal pressure, spacecraft position and speed in Heliographic
    Inertial (HGI), Heliocentric Aries ecliptic, and Heliographic
    (Carrington) coordinates.

    Coverage
    ========
    This data set specifically excludes SWAP data obtained while New
    Horizons was inside the Pluto system. The results provided here are
    for observations obtained when the solar wind beam was fully within
    the SWAP field of view.  As explained by Heather Elliott
    (co-investigator):

      The solar wind is very radial the vast majority of the time.  Since
      we do not have much angular information, we assume the solar wind is
      radial to perform our analysis.  Inside the Pluto system, we have no
      way of knowing the direction of the ions or if we are measuring the
      full distribution function.  We did a separate analysis for Pluto
      and have already published those results in McComas, et al. (2016)*,
      but those results to our best knowledge only reflect the portion of
      the distribution function that we measure and are not true density,
      speeds, and temperatures.  Since we believe we do measure the full
      distribution function of the solar wind when the instrument was
      pointed such that the solar wind beam was well within the SWAP FOV,
      we refer to those results as true density, speed, and temperature.

       * McComas, D. J., et al. (2016), Pluto's interaction with the
         solar wind, Journal of Geophysical Research: Space Physics,
         doi:10.1002/2016JA022599.

    The team is planning to provide a separate archive data set for the
    Pluto system data because the analysis is not the same, and the
    quantities represented will not be the same.


    Processing
    ==========
    The analysis of the count rate energy distributions (SWAP level 2 data
    archived at PDS) to produce solar wind parameters is described by
    Elliott et al. (2016). This paper includes a lengthy discussion of
    all the calibration information used to forward model the count rate
    distributions, the use of Poisson errors in the fit procedure, and
    shows comparisons to 1 AU and Voyager 2 solar wind observations.

    Reference Frame
    ===============

    Heliographic Inertial (HGI)
    -----------------------------------
    This system is Sun centered with the X-axis along the intersection
    line of the ecliptic (zero longitude occurs at the +X-axis) and solar
    equatorial planes. The Z-axis is perpendicular to the solar equator,
    and the Y-axis completes the right-handed system. This coordinate
    system is also referred to as the Heliocentric Inertial (HCI) system.

    Heliocentric Aries Ecliptic J2000 (HAE-J2000)
    -----------------------------------
    This coordinate system is heliocentric system with the Z-axis normal
    to the ecliptic plane and the X-axis pointes toward the first point of
    Aries on the Vernal Equinox, and the Y-axis completes the right-handed
    system. This coordinate system is also referred to as the Solar
    Ecliptic (SE) coordinate system. The label 'J2000' refers to the time
    at which one defines the Vernal Equinox. In this case it is defined at
    the J2000 date, which is January 1, 2000 at noon.

    Heliographic (HG)
    -----------------------------------
    This system is similar to the Heliographic Inertial one except the
    zero longitude is fixed on the surface of the Sun and rotates with a
    period of 25.38 days. Specifically, the zero was defined as the
    longitude at the ascending node of the equator in the ecliptic plane
    on January 1, 1854 at 12 UT. This system is also known as the
    Carrington system and is an intrinsic system to Spacecraft Planet
    Instrument C-matric Events (SPICE) toolkit denoted as IAU_SUN where
    IAU stands for International Astronomical Union.

    Geometric Parameter Reference Frame
    -----------------------------------
    Earth Mean Equator and Vernal Equinox of J2000 (EMEJ2000) is the
    inertial reference frame used to specify observational geometry items
    provided in the data labels.  Geometric parameters are based on best
    available SPICE data at time of data creation.


    Epoch of Geometric Parameters
    -----------------------------
    All geometric parameters provided in the data labels were computed at
    the epoch midway between the START_TIME and STOP_TIME label fields.

    "

    ABSTRACT_DESC                  = "
     This data set presents characteristics of the solar wind derived from
     the New Horizons Solar Wind Around Pluto (SWAP) experiment from
     observations obtained during cruise, Pluto encounter (excluding the
     period inside the Pluto system), and afterwards. The single data file
     the time information for a given pair of sweeps, original level 2
     data file reference, the solar wind speed proton density, proton
     speed, proton temperature, proton dynamic pressure, proton thermal
     pressure, spacecraft position and speed in Heliographic Inertial
     (HGI), Heliocentric Aries ecliptic, and Heliographic (Carrington)
     coordinates.
      "
    CITATION_DESC                  = "
      Elliott, H., Mukherjee, J., NEW HORIZONS SWAP SOLAR WIND DERIVED
      CHARACTERISTICS V1.0, NH-X-SWAP-5-DERIVED-SOLARWIND-V1.0, NASA
      Planetary Data System, 2017."
    DATA_OBJECT_TYPE               = "SPREADSHEET"
    DATA_SET_COLLECTION_MEMBER_FLG = "N"

    DATA_SET_NAME                  = "
      NEW HORIZONS SWAP SOLAR WIND DERIVED CHARACTERISTICS V1.0"
    DATA_SET_RELEASE_DATE          = 2016-09-01
    DATA_SET_TERSE_DESC            = "
       This data set contains the New Horizons SWAP solar wind
       characteristics derived from the cruise, Pluto encounter,
       and subsequent SWAP observations.
      "
    DETAILED_CATALOG_FLAG          = "N"
    PRODUCER_FULL_NAME             = "HEATHER ELLIOTT"

    CONFIDENCE_LEVEL_NOTE          = "
       Every measurement in the raw dataset was used and the confidence in
       the final parameters is discussed in Elliott et al., 2016.
       [ELLIOTTETAL2016]
    "

  END_OBJECT                       = DATA_SET_INFORMATION

  OBJECT                           = DATA_SET_MISSION
    MISSION_NAME                   = "NEW HORIZONS"
  END_OBJECT                       = DATA_SET_MISSION

  OBJECT                           = DATA_SET_REFERENCE_INFORMATION
    REFERENCE_KEY_ID               = "ELLIOTTETAL2016"
  END_OBJECT                       = DATA_SET_REFERENCE_INFORMATION

  OBJECT                           = DATA_SET_TARGET
    TARGET_NAME                    = "SOLAR WIND"
  END_OBJECT                       = DATA_SET_TARGET

  OBJECT                           = DATA_SET_HOST
    INSTRUMENT_HOST_ID             = "NH"
    INSTRUMENT_ID                  = "SWAP"
  END_OBJECT                       = DATA_SET_HOST

END_OBJECT                         = DATA_SET

END