mms2-fpi-desmoms.xml
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<?xml version="1.0" encoding="UTF-8"?>
<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://www.spase-group.org/data/schema/spase-2.4.1.xsd">
<Version>2.4.1</Version>
<NumericalData>
<ResourceID>spase://CNES/NumericalData/CDPP-AMDA/MMS/MMS2/FPI/mms2-fpi-desmoms</ResourceID>
<ResourceHeader>
<ResourceName>DES : electrons</ResourceName>
<AlternateName>Dual Electron Spectrometers : fast mode</AlternateName>
<ReleaseDate>2024-05-22T02:42:09Z</ReleaseDate>
<Description>FPI usually operates in Fast Survey (FS) Mode in the MMS Region Of Interest (ROI) for
the current Mission Phase. Data are taken at burst (30/150 ms for DES/DIS) resolution in this mode. Data are also made
available at survey (4.5 s) resolution. Per mission design, not all burst-resolution data are downlinked, but all sur vey data are downlinked. Planning around calibration activities, avoidance of Earth radiation belts, etc, when possible
, FPI usually operates in Slow Survey (SS) Mode (60 s resolution) outside of ROI. This moments product contains results
from integrating the standard moments of phase-space distributions formed from the indicated data type (DES/DIS burst,
FS or SS). For convenience, some additional parameters are included to augment those most commonly found in a moments
product of this sort, plus time-stamps and other annotation characterizing the state of the instrument system at the in
dicated time.</Description>
<Contact>
<PersonID>spase://SMWG/Person/James.L.Burch</PersonID>
<Role>PrincipalInvestigator</Role>
</Contact>
<Contact>
<PersonID>spase://CNES/Person/CDPP-AMDA/B.Giles</PersonID>
<Role>PrincipalInvestigator</Role>
</Contact>
<InformationURL>
<Name>MMS home page at GSFC</Name>
<URL>http://mms.gsfc.nasa.gov</URL>
</InformationURL>
<InformationURL>
<Name>FPI overview</Name>
<URL>http://www.nasa.gov/mission_pages/mms/spacecraft/instruments.html#fpi</URL>
</InformationURL>
<Association>
<AssociationID>mms2-fpi-fast</AssociationID>
<AssociationType>PartOf</AssociationType>
<Note>fast mode</Note>
</Association>
</ResourceHeader>
<AccessInformation>
<RepositoryID>spase://SMWG/Repository/CDPP/AMDA</RepositoryID>
<Availability>Online</Availability>
<AccessRights>Open</AccessRights>
<AccessURL>
<Name>CDPP/AMDA HAPI Server</Name>
<URL>https://amda.irap.omp.eu/service/hapi</URL>
<Style>HAPI</Style>
<ProductKey>mms2-fpi-desmoms</ProductKey>
<Description>Web Service to this product using the HAPI interface.</Description>
</AccessURL>
<Format>CSV</Format>
<Acknowledgement>Thank you for acknowledging the use of AMDA in publications with wording like "Data analysis was performed with the AMDA science analysis system provided by the Centre de Données de la Physique des Plasmas (CDPP) supported by CNRS, CNES, Observatoire de Paris and Université Paul Sabatier, Toulouse". See the Rules of the road at https://amda.cdpp.eu/help/policy.html . Please acknowledge the Data Providers.</Acknowledgement>
</AccessInformation>
<AccessInformation>
<RepositoryID>spase://SMWG/Repository/CDPP/AMDA</RepositoryID>
<Availability>Online</Availability>
<AccessRights>Open</AccessRights>
<AccessURL>
<Name>CDPP/AMDA Web application</Name>
<URL>https://amda.cdpp.eu</URL>
<Description>Access to Data via CDPP/AMDA Web application.</Description>
</AccessURL>
<Format>CSV</Format>
<Format>VOTable</Format>
<Format>CDF</Format>
<Format>PNG</Format>
<Acknowledgement>Thank you for acknowledging the use of AMDA in publications with wording like "Data analysis was performed with the AMDA science analysis system provided by the Centre de Données de la Physique des Plasmas (CDPP) supported by CNRS, CNES, Observatoire de Paris and Université Paul Sabatier, Toulouse". See the Rules of the road at https://amda.cdpp.eu/help/policy.html . Please acknowledge the Data Providers.</Acknowledgement>
</AccessInformation>
<ProviderName>LASP</ProviderName>
<InstrumentID>spase://CNES/Instrument/CDPP-AMDA/MMS2/FPI</InstrumentID>
<MeasurementType>MagneticField</MeasurementType>
<TemporalDescription>
<TimeSpan>
<StartDate>2015-06-22T17:46:20Z</StartDate>
<StopDate>2024-03-30T23:59:56Z</StopDate>
</TimeSpan>
<Cadence>PT4.5S</Cadence>
</TemporalDescription>
<Parameter>
<Name>density</Name>
<ParameterKey>mms2_des_ne</ParameterKey>
<Units>cm^-3</Units>
<RenderingHints>
<DisplayType>TimeSeries</DisplayType>
</RenderingHints>
<Particle>
<ParticleType>Electron</ParticleType>
<Qualifier>Scalar</Qualifier>
<ParticleQuantity>NumberDensity</ParticleQuantity>
</Particle>
</Parameter>
<Parameter>
<Name>density : err</Name>
<ParameterKey>mms2_des_ne_err</ParameterKey>
<Units>cm^-3</Units>
<RenderingHints>
<DisplayType>TimeSeries</DisplayType>
</RenderingHints>
<Particle>
<ParticleType>Electron</ParticleType>
<Qualifier>Scalar</Qualifier>
<ParticleQuantity>NumberDensity</ParticleQuantity>
</Particle>
</Parameter>
<Parameter>
<Name>v_gse</Name>
<ParameterKey>mms2_des_vgse</ParameterKey>
<Units>km/s</Units>
<CoordinateSystem>
<CoordinateRepresentation>Cartesian</CoordinateRepresentation>
<CoordinateSystemName>GSE</CoordinateSystemName>
</CoordinateSystem>
<RenderingHints>
<DisplayType>TimeSeries</DisplayType>
</RenderingHints>
<Structure>
<Size>3</Size>
<Element>
<Name>vx</Name>
<Qualifier>Component.I</Qualifier>
<Index>1</Index>
<ParameterKey>mms2_des_vgse(0)</ParameterKey>
</Element>
<Element>
<Name>vy</Name>
<Qualifier>Component.J</Qualifier>
<Index>2</Index>
<ParameterKey>mms2_des_vgse(1)</ParameterKey>
</Element>
<Element>
<Name>vz</Name>
<Qualifier>Component.K</Qualifier>
<Index>3</Index>
<ParameterKey>mms2_des_vgse(2)</ParameterKey>
</Element>
</Structure>
<Particle>
<ParticleType>Electron</ParticleType>
<Qualifier>Vector</Qualifier>
<ParticleQuantity>Velocity</ParticleQuantity>
</Particle>
</Parameter>
<Parameter>
<Name>v_gse : err</Name>
<ParameterKey>mms2_des_v_err</ParameterKey>
<Units>km/s</Units>
<RenderingHints>
<DisplayType>TimeSeries</DisplayType>
</RenderingHints>
<Structure>
<Size>3</Size>
<Element>
<Name>vx</Name>
<Qualifier>Component.I</Qualifier>
<Index>1</Index>
<ParameterKey>mms2_des_v_err(0)</ParameterKey>
</Element>
<Element>
<Name>vy</Name>
<Qualifier>Component.J</Qualifier>
<Index>2</Index>
<ParameterKey>mms2_des_v_err(1)</ParameterKey>
</Element>
<Element>
<Name>vz</Name>
<Qualifier>Component.K</Qualifier>
<Index>3</Index>
<ParameterKey>mms2_des_v_err(2)</ParameterKey>
</Element>
</Structure>
<Particle>
<ParticleType>Electron</ParticleType>
<Qualifier>Vector</Qualifier>
<ParticleQuantity>Velocity</ParticleQuantity>
</Particle>
</Parameter>
<Parameter>
<Name>t_para</Name>
<ParameterKey>mms2_des_tpara</ParameterKey>
<Units>eV</Units>
<RenderingHints>
<DisplayType>TimeSeries</DisplayType>
</RenderingHints>
<Particle>
<ParticleType>Electron</ParticleType>
<Qualifier>Scalar</Qualifier>
<ParticleQuantity>Temperature</ParticleQuantity>
</Particle>
</Parameter>
<Parameter>
<Name>t_perp</Name>
<ParameterKey>mms2_des_tperp</ParameterKey>
<Units>eV</Units>
<RenderingHints>
<DisplayType>TimeSeries</DisplayType>
</RenderingHints>
<Particle>
<ParticleType>Electron</ParticleType>
<Qualifier>Scalar</Qualifier>
<ParticleQuantity>Temperature</ParticleQuantity>
</Particle>
</Parameter>
<Parameter>
<Name>heatq_gse</Name>
<ParameterKey>mms2_des_heatq</ParameterKey>
<UCD>phys.pressure</UCD>
<Units>mW/m^2</Units>
<CoordinateSystem>
<CoordinateRepresentation>Cartesian</CoordinateRepresentation>
<CoordinateSystemName>GSE</CoordinateSystemName>
</CoordinateSystem>
<RenderingHints>
<DisplayType>TimeSeries</DisplayType>
</RenderingHints>
<Structure>
<Size>3</Size>
<Element>
<Name>x</Name>
<Index>1</Index>
<ParameterKey>mms2_des_heatq(0)</ParameterKey>
</Element>
<Element>
<Name>y</Name>
<Index>2</Index>
<ParameterKey>mms2_des_heatq(1)</ParameterKey>
</Element>
<Element>
<Name>z</Name>
<Index>3</Index>
<ParameterKey>mms2_des_heatq(2)</ParameterKey>
</Element>
</Structure>
<Particle>
<ParticleType>Electron</ParticleType>
<Qualifier>Vector</Qualifier>
<ParticleQuantity>HeatFlux</ParticleQuantity>
</Particle>
</Parameter>
<Parameter>
<Name>pressure_gse</Name>
<ParameterKey>mms2_des_press</ParameterKey>
<UCD>phys.pressure</UCD>
<Units>nPa</Units>
<CoordinateSystem>
<CoordinateRepresentation>Cartesian</CoordinateRepresentation>
<CoordinateSystemName>GSE</CoordinateSystemName>
</CoordinateSystem>
<RenderingHints>
<DisplayType>TimeSeries</DisplayType>
</RenderingHints>
<Structure>
<Size>9</Size>
<Element>
<Name>xx</Name>
<Index>1</Index>
<ParameterKey>mms2_des_press(0)</ParameterKey>
</Element>
<Element>
<Name>xy</Name>
<Index>2</Index>
<ParameterKey>mms2_des_press(1)</ParameterKey>
</Element>
<Element>
<Name>xz</Name>
<Index>3</Index>
<ParameterKey>mms2_des_press(2)</ParameterKey>
</Element>
<Element>
<Name>yx</Name>
<Index>4</Index>
<ParameterKey>mms2_des_press(3)</ParameterKey>
</Element>
<Element>
<Name>yy</Name>
<Index>5</Index>
<ParameterKey>mms2_des_press(4)</ParameterKey>
</Element>
<Element>
<Name>yz</Name>
<Index>6</Index>
<ParameterKey>mms2_des_press(5)</ParameterKey>
</Element>
<Element>
<Name>zx</Name>
<Index>7</Index>
<ParameterKey>mms2_des_press(6)</ParameterKey>
</Element>
<Element>
<Name>zy</Name>
<Index>8</Index>
<ParameterKey>mms2_des_press(7)</ParameterKey>
</Element>
<Element>
<Name>zz</Name>
<Index>9</Index>
<ParameterKey>mms2_des_press(8)</ParameterKey>
</Element>
</Structure>
<Particle>
<ParticleType>Electron</ParticleType>
<Qualifier>Tensor</Qualifier>
<ParticleQuantity>Pressure</ParticleQuantity>
</Particle>
</Parameter>
<Parameter>
<Name>elec eflux : omni</Name>
<ParameterKey>mms2_des_omni</ParameterKey>
<Units>keV/(cm^2-s-sr-keV)</Units>
<RenderingHints>
<DisplayType>Spectrogram</DisplayType>
</RenderingHints>
<Particle>
<ParticleType>Electron</ParticleType>
<ParticleQuantity>EnergyFlux</ParticleQuantity>
</Particle>
</Parameter>
<Parameter>
<Name>elec eflux : para</Name>
<ParameterKey>mms2_des_para</ParameterKey>
<Units>keV/(cm^2-s-sr-keV)</Units>
<RenderingHints>
<DisplayType>Spectrogram</DisplayType>
</RenderingHints>
<Particle>
<ParticleType>Electron</ParticleType>
<ParticleQuantity>EnergyFlux</ParticleQuantity>
</Particle>
</Parameter>
<Parameter>
<Name>elec eflux : anti</Name>
<ParameterKey>mms2_des_anti</ParameterKey>
<Units>keV/(cm^2-s-sr-keV)</Units>
<RenderingHints>
<DisplayType>Spectrogram</DisplayType>
</RenderingHints>
<Particle>
<ParticleType>Electron</ParticleType>
<ParticleQuantity>EnergyFlux</ParticleQuantity>
</Particle>
</Parameter>
<Parameter>
<Name>elec eflux : perp</Name>
<ParameterKey>mms2_des_perp</ParameterKey>
<Units>keV/(cm^2-s-sr-keV)</Units>
<RenderingHints>
<DisplayType>Spectrogram</DisplayType>
</RenderingHints>
<Particle>
<ParticleType>Electron</ParticleType>
<ParticleQuantity>EnergyFlux</ParticleQuantity>
</Particle>
</Parameter>
<Parameter>
<Name>pa dist : lowen</Name>
<ParameterKey>mms2_des_palow</ParameterKey>
<Description>Low energy bin: 0 eV - 200 eV.
Pitch-angle bin size: 6 deg. Note that pitch angles are calculated in the spacecraft frame;
i.e., not shifted by the bulk velocity</Description>
<Units>keV/(cm^2-s-sr-keV)</Units>
<RenderingHints>
<DisplayType>Spectrogram</DisplayType>
</RenderingHints>
<Particle>
<ParticleType>Electron</ParticleType>
<ParticleQuantity>EnergyFlux</ParticleQuantity>
</Particle>
</Parameter>
<Parameter>
<Name>pa dist : miden</Name>
<ParameterKey>mms2_des_pamid</ParameterKey>
<Description>Mid energy bin: 200 eV - 2 keV.
Pitch-angle bin size: 6 deg. Note that pitch angles are calculated in the spacecraft frame;
i.e., not shifted by the bulk velocity</Description>
<Units>keV/(cm^2-s-sr-keV)</Units>
<RenderingHints>
<DisplayType>Spectrogram</DisplayType>
</RenderingHints>
<Particle>
<ParticleType>Electron</ParticleType>
<ParticleQuantity>EnergyFlux</ParticleQuantity>
</Particle>
</Parameter>
<Parameter>
<Name>pa dist : highen</Name>
<ParameterKey>mms2_des_pahigh</ParameterKey>
<Description>High energy bin: 2 keV - 30 keV.
Pitch-angle bin size: 6 deg. Note that pitch angles are calculated in the spacecraft frame;
i.e., not shifted by the bulk velocity</Description>
<Units>keV/(cm^2-s-sr-keV)</Units>
<RenderingHints>
<DisplayType>Spectrogram</DisplayType>
</RenderingHints>
<Particle>
<ParticleType>Electron</ParticleType>
<ParticleQuantity>EnergyFlux</ParticleQuantity>
</Particle>
</Parameter>
</NumericalData>
</Spase>