CDPP / CNES

Commit 2f0514039cb9177d2cabbfb37af54ecb8fd1fed8

Authored by Elena.Budnik
1 parent 554eb497
Exists in master and in 12 other branches amdadev, aschulz, autocommit, bepi_master, bepi_update, branch_q, cleanup_registry, cleanup_registry_master, cleanup_registry_merged, juice_jdc, juno_jade, soar

ROSETTA LAP : ASW, NEL, USC

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NumericalData/AMDA/Rosetta/LAP/ros-lap-asw.xml 0 → 100644
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  1 +<?xml version="1.0" encoding="UTF-8"?>
  2 +<Spase xmlns="http://www.spase-group.org/data/schema" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:schemaLocation="http://www.spase-group.org/data/schema http://cdpp.irap.omp.eu/AMDA-NG/public/schemas/spase-amda-1_2_0.xsd">
  3 + <Version>2.2.6</Version>
  4 + <NumericalData>
  5 + <ResourceID>spase://CDPP/NumericalData/AMDA/Rosetta/LAP/ros-lap-asw</ResourceID>
  6 + <ResourceHeader>
  7 + <ResourceName>parameters from sweeps (ASW)</ResourceName>
  8 + <AlternateName>Analyzed sweeps (ASW). Miscellaneous physical
  9 +high-level quantities derived from individual sweeps.</AlternateName>
  10 + <ReleaseDate>2016-10-15T14:08:29Z</ReleaseDate>
  11 + <Description>Time series of sweep-based estimates of electron
  12 +density, ion bulk speed, electron temperature, and photoelectron knee
  13 +potential. Timestamps represent the middle of the corresponding sweeps.</Description>
  14 + <Contact>
  15 + <PersonID>spase://CDPP/Person/Anders.Eriksson</PersonID>
  16 + <Role>PrincipalInvestigator</Role>
  17 + </Contact>
  18 + <Contact>
  19 + <PersonID>spase://CDPP/Person/Erik.Johansson</PersonID>
  20 + <Role>DataProducer</Role>
  21 + </Contact>
  22 + <InformationURL>
  23 + <Name>RPC LAP User Guide</Name>
  24 + <URL>http://amda.irap.omp.eu/help/parameters/RO-IRFU-LAP-UG.PDF</URL>
  25 + </InformationURL>
  26 + </ResourceHeader>
  27 + <AccessInformation>
  28 + <RepositoryID>spase://SMWG/Repository/CDPP/AMDA</RepositoryID>
  29 + <Availability>Online</Availability>
  30 + <AccessRights>Restricted</AccessRights>
  31 + <AccessURL>
  32 + <URL>http://amda.cdpp.eu</URL>
  33 + </AccessURL>
  34 + <Format>NetCDF</Format>
  35 + </AccessInformation>
  36 + <ProviderName>PSA</ProviderName>
  37 + <ProviderResourceName>RO-C-RPCLAP-5-xxx-DERIV2-V1.0</ProviderResourceName>
  38 + <InstrumentID>spase://CDPP/Instrument/AMDA/Rosetta/LAP</InstrumentID>
  39 + <MeasurementType>ThermalPlasma</MeasurementType>
  40 + <TemporalDescription>
  41 + <TimeSpan>
  42 + <StartDate>2014-03-24T08:12:59Z</StartDate>
  43 + <StopDate>2016-09-30T10:31:16Z</StopDate>
  44 + </TimeSpan>
  45 + <Cadence_Min>PT0.016S</Cadence_Min>
  46 + <Cadence_Max>PT128S</Cadence_Max>
  47 + </TemporalDescription>
  48 + <Caveats>* n_e - electron density is calculated from the slope of the probe curve where electron collection dominates, which should be proportional to the plasma density divided by the square root of the electron temperature [Eriksson et al., 2017]. An electron temperature is assumed to be fixed (value of 5 eV) which has been found suitable for giving densities comparable to MIP at the points where both instruments have data. A user who wishes to use another fixed Te, or use the sweep derived T_E, may scale N_E by the square root of Te/(5 eV). While N_E works well in low density plasmas, severe underestimation can result in high density plasmas where Vsc becomes very negative.
  49 + * i_photosat - photosaturation current derived from individual sweep (LAP1). As LAP1 has shown no significant contamination effects, these estimates should be directly proportional to the EUV flux at Rosetta position in the 20-130 nm band.
  50 + * v_i bulk - effective ion speed derived from individual sweep (speed; always non-negative scalar), while assuming a specific ion mass. Cross-calibrated with RPCMIP.
  51 + * t_e - electron temperature derived from exponential part of sweep. The temperature from the exponential slope of the retarding electron current (a least-square fit slope of the logarithm of the current, after subtraction of a fitted ion current) refers to the warm electron population. If the automatic identification of the retarding electron current region is poor, this estimate can be quite noisy and have a large random spread.
  52 + * t_e_xcalc - electron temperature, derived by using the linear part of the electron current of the sweep, and density measurement from RPCMIP. The interpretation should be that when T_E_XCAL has a value below 1 eV, there is a cold electron population present. As the relative fractions of the warm and cold electrons are unknown, the provided value of T_E_XCAL should be interpreted as an upper limit to the temperature of the cold electrons.
  53 + * It should be noted that the absolute accuracy of the two Te estimates is not well constrained as there is little independent data to compare to. T_E_XCAL should be seen as an approximate upper value for the cold electron temperature, while T_E should not be considered to estimate the warm electron temperature better than by a factor of two.
  54 + * u_sc - spacecraft potential derived from the voltage where the photoelectron emission current from the probe transits from being constant at lower votages to decaying with increasing voltage, clearly visible as a knee.
  55 + </Caveats>
  56 + <Parameter>
  57 + <Name>n_e</Name>
  58 + <ParameterKey>ros_lap_neft</ParameterKey>
  59 + <Description>Electron density derived from individual sweep. An electron temperature is assumed to be fixed (value of 5 eV)</Description>
  60 + <Ucd/>
  61 + <Units>cm^-3</Units>
  62 + <RenderingHints>
  63 + <DisplayType>TimeSeries</DisplayType>
  64 + </RenderingHints>
  65 + <FillValue>-1.e+09</FillValue>
  66 + </Parameter>
  67 + <Parameter>
  68 + <Name>n_e : qual</Name>
  69 + <ParameterKey>ros_lap_neft_q</ParameterKey>
  70 + <Description>Quality value in the range 0 (worst) to 1 (best). Corresponds to goodness of fit or how well the model fits the data</Description>
  71 + <Ucd/>
  72 + <Units/>
  73 + <RenderingHints>
  74 + <DisplayType>TimeSeries</DisplayType>
  75 + </RenderingHints>
  76 + <FillValue></FillValue>
  77 + </Parameter>
  78 + <Parameter>
  79 + <Name>t_e</Name>
  80 + <ParameterKey>ros_lap_te</ParameterKey>
  81 + <Description>Electron temperature derived from exponential part of sweep</Description>
  82 + <Ucd/>
  83 + <Units>eV</Units>
  84 + <RenderingHints>
  85 + <DisplayType>TimeSeries</DisplayType>
  86 + </RenderingHints>
  87 + <FillValue>-1.e+09</FillValue>
  88 + </Parameter>
  89 + <Parameter>
  90 + <Name>t_e : qual</Name>
  91 + <ParameterKey>ros_lap_te_q</ParameterKey>
  92 + <Description>Quality value in the range 0 (worst) to 1 (best). Corresponds to goodness of fit or how well the model fits the data</Description>
  93 + <Ucd/>
  94 + <Units/>
  95 + <RenderingHints>
  96 + <DisplayType>TimeSeries</DisplayType>
  97 + </RenderingHints>
  98 + <FillValue></FillValue>
  99 + </Parameter>
  100 + <Parameter>
  101 + <Name>t_e_xcalc</Name>
  102 + <ParameterKey>ros_lap_te_xcalc</ParameterKey>
  103 + <Description>Electron temperature, derived by using the linear part of the electron current of the sweep, and density measurement from RPCMIP.</Description>
  104 + <Ucd/>
  105 + <Units>eV</Units>
  106 + <RenderingHints>
  107 + <DisplayType>TimeSeries</DisplayType>
  108 + </RenderingHints>
  109 + <FillValue>-1.e+09</FillValue>
  110 + </Parameter>
  111 + <Parameter>
  112 + <Name>t_e_xcalc : qual</Name>
  113 + <ParameterKey>ros_lap_te_xcalc_q</ParameterKey>
  114 + <Description>Quality value in the range 0 (worst) to 1 (best). Corresponds to goodness of fit or how well the model fits the data</Description>
  115 + <Ucd/>
  116 + <Units/>
  117 + <RenderingHints>
  118 + <DisplayType>TimeSeries</DisplayType>
  119 + </RenderingHints>
  120 + <FillValue></FillValue>
  121 + </Parameter>
  122 + <Parameter>
  123 + <Name>i_photosat</Name>
  124 + <ParameterKey>ros_lap_ipho</ParameterKey>
  125 + <Description>Photosaturation current derived from individual sweep. As LAP1 has shown no significant
  126 +contamination effects, these estimates should be directly proportional to the EUV flux at Rosetta position in the 20-130 nm band.</Description>
  127 + <Ucd/>
  128 + <Units>A</Units>
  129 + <RenderingHints>
  130 + <DisplayType>TimeSeries</DisplayType>
  131 + </RenderingHints>
  132 + <FillValue>-1.e+09</FillValue>
  133 + </Parameter>
  134 + <Parameter>
  135 + <Name>i_photosat : qual</Name>
  136 + <ParameterKey>ros_lap_ipho_q</ParameterKey>
  137 + <Description>Quality value in the range 0 (worst) to 1 (best). Corresponds to goodness of fit or how well the model fits the data</Description>
  138 + <Ucd/>
  139 + <Units/>
  140 + <RenderingHints>
  141 + <DisplayType>TimeSeries</DisplayType>
  142 + </RenderingHints>
  143 + <FillValue></FillValue>
  144 + </Parameter>
  145 + <Parameter>
  146 + <Name>v_i bulk</Name>
  147 + <ParameterKey>ros_lap_vi_asw</ParameterKey>
  148 + <Description>Effective ion speed derived from individual sweep (speed; always non-negative scalar), while assuming a specific ion mass. Cross-calibrated with RPCMIP</Description>
  149 + <Ucd/>
  150 + <Units>m/s</Units>
  151 + <RenderingHints>
  152 + <DisplayType>TimeSeries</DisplayType>
  153 + </RenderingHints>
  154 + <FillValue>-1.e+09</FillValue>
  155 + </Parameter>
  156 + <Parameter>
  157 + <Name>v_i bulk : qual</Name>
  158 + <ParameterKey>ros_lap_vi_asw_q</ParameterKey>
  159 + <Description>Quality value in the range 0 (worst) to 1 (best). Corresponds to goodness of fit or how well the model fits the data</Description>
  160 + <Ucd/>
  161 + <Units/>
  162 + <RenderingHints>
  163 + <DisplayType>TimeSeries</DisplayType>
  164 + </RenderingHints>
  165 + <FillValue/>
  166 + </Parameter>
  167 + <Parameter>
  168 + <Name>u_sc</Name>
  169 + <ParameterKey>ros_lap_usc_asw</ParameterKey>
  170 + <Description>Photoelectron knee potential</Description>
  171 + <Ucd/>
  172 + <Units>V</Units>
  173 + <RenderingHints>
  174 + <DisplayType>TimeSeries</DisplayType>
  175 + </RenderingHints>
  176 + <FillValue>-1.e+09</FillValue>
  177 + </Parameter>
  178 + <Parameter>
  179 + <Name>u_sc : qual</Name>
  180 + <ParameterKey>ros_lap_usc_asw_q</ParameterKey>
  181 + <Description>Quality value in the range 0 (worst) to 1 (best). Corresponds to goodness of fit or how well the model fits the data</Description>
  182 + <Ucd/>
  183 + <Units/>
  184 + <RenderingHints>
  185 + <DisplayType>TimeSeries</DisplayType>
  186 + </RenderingHints>
  187 + <FillValue/>
  188 + </Parameter>
  189 + <Parameter>
  190 + <Name>quality flag</Name>
  191 + <ParameterKey>ros_lap_asw_f</ParameterKey>
  192 + <Ucd/>
  193 + <Units/>
  194 + <RenderingHints>
  195 + <DisplayType>TimeSeries</DisplayType>
  196 + </RenderingHints>
  197 + <FillValue></FillValue>
  198 + </Parameter>
  199 + </NumericalData>
  200 +</Spase>
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NumericalData/AMDA/Rosetta/LAP/ros-lap-nel.xml 0 → 100644
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  1 +<?xml version="1.0" encoding="UTF-8"?>
  2 +<Spase xmlns="http://www.spase-group.org/data/schema" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:schemaLocation="http://www.spase-group.org/data/schema http://cdpp.irap.omp.eu/AMDA-NG/public/schemas/spase-amda-1_2_0.xsd">
  3 + <Version>2.2.6</Version>
  4 + <NumericalData>
  5 + <ResourceID>spase://CDPP/NumericalData/AMDA/Rosetta/LAP/ros-lap-nel</ResourceID>
  6 + <ResourceHeader>
  7 + <ResourceName>plasma density (NEL)</ResourceName>
  8 + <AlternateName>Plasma density which contains the highest time resolution cross-calibrated density data,
  9 +when RPC-MIP is not delivering cross-calibrated density products</AlternateName>
  10 + <ReleaseDate>2016-10-15T14:08:29Z</ReleaseDate>
  11 + <Description>This data set is based on LAP data with use of a long-term LAP-MIP cross calibration for some time intervals
  12 +when MIP-LAP density is not available. Plasma density derived from individual current
  13 +measurements or floating potential measurements on one probe. A value of
  14 +-1e^^+09 means that the corresponding sample in the source data was saturated.</Description>
  15 + <Contact>
  16 + <PersonID>spase://CDPP/Person/Anders.Eriksson</PersonID>
  17 + <Role>PrincipalInvestigator</Role>
  18 + </Contact>
  19 + <Contact>
  20 + <PersonID>spase://CDPP/Person/Erik.Johansson</PersonID>
  21 + <Role>DataProducer</Role>
  22 + </Contact>
  23 + <InformationURL>
  24 + <Name>RPC LAP User Guide</Name>
  25 + <URL>http://amda.irap.omp.eu/help/parameters/RO-IRFU-LAP-UG.PDF</URL>
  26 + </InformationURL>
  27 + </ResourceHeader>
  28 + <AccessInformation>
  29 + <RepositoryID>spase://SMWG/Repository/CDPP/AMDA</RepositoryID>
  30 + <Availability>Online</Availability>
  31 + <AccessRights>Restricted</AccessRights>
  32 + <AccessURL>
  33 + <URL>http://amda.cdpp.eu</URL>
  34 + </AccessURL>
  35 + <Format>NetCDF</Format>
  36 + </AccessInformation>
  37 + <ProviderName>PSA</ProviderName>
  38 + <ProviderResourceName>RO-C-RPCLAP-5-xxx-NEL-V1.0</ProviderResourceName>
  39 + <InstrumentID>spase://CDPP/Instrument/AMDA/Rosetta/LAP</InstrumentID>
  40 + <MeasurementType>ThermalPlasma</MeasurementType>
  41 + <TemporalDescription>
  42 + <TimeSpan>
  43 + <StartDate>2014-03-24T08:12:59Z</StartDate>
  44 + <StopDate>2016-09-30T10:31:16Z</StopDate>
  45 + </TimeSpan>
  46 + <Cadence_Min>PT0.016S</Cadence_Min>
  47 + <Cadence_Max>PT128S</Cadence_Max>
  48 + </TemporalDescription>
  49 + <Parameter>
  50 + <Name>n el</Name>
  51 + <ParameterKey>ros_lap_nel</ParameterKey>
  52 + <Ucd/>
  53 + <Units>cm^-3</Units>
  54 + <RenderingHints>
  55 + <DisplayType>TimeSeries</DisplayType>
  56 + </RenderingHints>
  57 + <FillValue>-1.e+09</FillValue>
  58 + </Parameter>
  59 + <Parameter>
  60 + <Name>quality value</Name>
  61 + <ParameterKey>ros_lap_nel_q</ParameterKey>
  62 + <Description>Quality value in the range 0 (worst) to 1 (best).
  63 +Corresponds to goodness of fit or how well the model fits the data.</Description>
  64 + <Ucd/>
  65 + <Units/>
  66 + <RenderingHints>
  67 + <DisplayType>TimeSeries</DisplayType>
  68 + </RenderingHints>
  69 + <FillValue></FillValue>
  70 + </Parameter>
  71 + <Parameter>
  72 + <Name>data source</Name>
  73 + <ParameterKey>ros_lap_nel_s</ParameterKey>
  74 + <Ucd/>
  75 + <Units/>
  76 + <RenderingHints>
  77 + <DisplayType>TimeSeries</DisplayType>
  78 + </RenderingHints>
  79 + <FillValue></FillValue>
  80 + </Parameter>
  81 + <Parameter>
  82 + <Name>quality flag</Name>
  83 + <ParameterKey>ros_lap_nel_f</ParameterKey>
  84 + <Ucd/>
  85 + <Units/>
  86 + <RenderingHints>
  87 + <DisplayType>TimeSeries</DisplayType>
  88 + </RenderingHints>
  89 + <FillValue></FillValue>
  90 + </Parameter>
  91 + </NumericalData>
  92 +</Spase>
... ...
NumericalData/AMDA/Rosetta/LAP/ros-lap-usc.xml 0 → 100644
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  1 +<?xml version="1.0" encoding="UTF-8"?>
  2 +<Spase xmlns="http://www.spase-group.org/data/schema" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:schemaLocation="http://www.spase-group.org/data/schema http://cdpp.irap.omp.eu/AMDA-NG/public/schemas/spase-amda-1_2_0.xsd">
  3 + <Version>2.2.6</Version>
  4 + <NumericalData>
  5 + <ResourceID>spase://CDPP/NumericalData/AMDA/Rosetta/LAP/ros-lap-usc</ResourceID>
  6 + <ResourceHeader>
  7 + <ResourceName>s/c potential (USC)</ResourceName>
  8 + <AlternateName> </AlternateName>
  9 + <ReleaseDate>2016-10-15T14:08:29Z</ReleaseDate>
  10 + <Description>For most science purposes, the most useful s/c potential estimate is the U_SC data product
  11 + which is available at 32 to 160 second resolution and covers
  12 + most of the mission.
  13 +
  14 + Depending on instrument operational mode, this is taken either from the
  15 + average over 32 s of measured voltage of a sunlit LAP probe (preferably LAP1) floating with
  16 + no bias current or voltage applied, sometimes known as Vfloat, or by the equivalent estimate from Langmuir
  17 + probe bias sweeps, which the voltage Vz at which the current to the probe is
  18 + zero. We expect U_SC to differ from the true spacecraft potential
  19 + by a small offset (due to the potential over the probe sheath, of order one volt) and a factor
  20 + (typically 75-80%) due to some part of the potential field from the spacecraft remaining at the
  21 + probe position.
  22 +
  23 + A parameter DATA_SOURCE indicats which of these methods have been
  24 + used for every single sweep.</Description>
  25 + <Contact>
  26 + <PersonID>spase://CDPP/Person/Anders.Eriksson</PersonID>
  27 + <Role>PrincipalInvestigator</Role>
  28 + </Contact>
  29 + <Contact>
  30 + <PersonID>spase://CDPP/Person/Erik.Johansson</PersonID>
  31 + <Role>DataProducer</Role>
  32 + </Contact>
  33 + <InformationURL>
  34 + <Name>RPC LAP User Guide</Name>
  35 + <URL>http://amda.irap.omp.eu/help/parameters/RO-IRFU-LAP-UG.PDF</URL>
  36 + </InformationURL>
  37 + </ResourceHeader>
  38 + <AccessInformation>
  39 + <RepositoryID>spase://SMWG/Repository/CDPP/AMDA</RepositoryID>
  40 + <Availability>Online</Availability>
  41 + <AccessRights>Restricted</AccessRights>
  42 + <AccessURL>
  43 + <URL>http://amda.cdpp.eu</URL>
  44 + </AccessURL>
  45 + <Format>NetCDF</Format>
  46 + </AccessInformation>
  47 + <ProviderName>PSA</ProviderName>
  48 + <ProviderResourceName>RO-C-RPCLAP-5-xxx-DERIV2-V1.0</ProviderResourceName>
  49 + <InstrumentID>spase://CDPP/Instrument/AMDA/Rosetta/LAP</InstrumentID>
  50 + <MeasurementType>ThermalPlasma</MeasurementType>
  51 + <TemporalDescription>
  52 + <TimeSpan>
  53 + <StartDate>2014-03-24T08:12:59Z</StartDate>
  54 + <StopDate>2016-09-30T10:31:16Z</StopDate>
  55 + </TimeSpan>
  56 + <Cadence_Min>PT32S</Cadence_Min>
  57 + <Cadence_Max>PT160S</Cadence_Max>
  58 + </TemporalDescription>
  59 + <Parameter>
  60 + <Name>u_sc</Name>
  61 + <ParameterKey>ros_lap_usc</ParameterKey>
  62 + <Ucd/>
  63 + <Units>V</Units>
  64 + <RenderingHints>
  65 + <DisplayType>TimeSeries</DisplayType>
  66 + </RenderingHints>
  67 + <FillValue/>
  68 + </Parameter>
  69 + <Parameter>
  70 + <Name>quality value</Name>
  71 + <ParameterKey>ros_lap_usc_q</ParameterKey>
  72 + <Description>Quality value in the range 0 (worst) to 1 (best).
  73 +Corresponds to goodness of fit or how well the model fits the data.</Description>
  74 + <Ucd/>
  75 + <Units/>
  76 + <RenderingHints>
  77 + <DisplayType>TimeSeries</DisplayType>
  78 + </RenderingHints>
  79 + <FillValue></FillValue>
  80 + </Parameter>
  81 + <Parameter>
  82 + <Name>data source</Name>
  83 + <ParameterKey>ros_lap_usc_s</ParameterKey>
  84 + <Ucd/>
  85 + <Units/>
  86 + <RenderingHints>
  87 + <DisplayType>TimeSeries</DisplayType>
  88 + </RenderingHints>
  89 + <FillValue></FillValue>
  90 + </Parameter>
  91 + <Parameter>
  92 + <Name>quality flag</Name>
  93 + <ParameterKey>ros_lap_usc_f</ParameterKey>
  94 + <Ucd/>
  95 + <Units/>
  96 + <RenderingHints>
  97 + <DisplayType>TimeSeries</DisplayType>
  98 + </RenderingHints>
  99 + <FillValue></FillValue>
  100 + </Parameter>
  101 + </NumericalData>
  102 +</Spase>
... ...