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  <Version>2.4.1</Version>
  <NumericalData>
    <ResourceID>spase://CNES/NumericalData/CDPP-AMDA/Solar_Orbiter/EPD/so-step-main</ResourceID>
    <ResourceHeader>
      <ResourceName>flux</ResourceName>
      <AlternateName>Flux averaged over sectors</AlternateName>
      <ReleaseDate>2022-01-17T05:52:44Z</ReleaseDate>
      <Description>Solar Orbiter, Level 2 Data, Energetic Particle Detector, SupraThermal Electrons and Protons, Main product.
              
          STEP is designed to measure electrons and ions in the suprathermal energy range (280 keV). To 
          allow for the separation of electrons and ions, STEP has 2 different channels, each equipped with its 
          own solid state detectors for detecting particles: 
          * Magnet channel. Uses a permanent magnet to deflect electrons, measuring only ions (mostly protons). 
          * Integral channel. Measures all incoming particles.
          
          The electron flux is recovered by subtracting the magnet channel measurements from the integral 
          channel ones. Each channel is divided in 15 sectors, disposed in 3 rows of 5 pixels, providing 
          directional information of the incoming particles within the field of view. An additional pixel, not directly 
          exposed to the incoming flux, measures the cosmic ray background.</Description>
      <Acknowledgement>See http://espada.uah.es/epd/EPD_data.php</Acknowledgement>
      <Contact>
        <PersonID>spase://CNES/Person/CDPP-AMDA/J.Rodrigues-Pacheco</PersonID>
        <Role>PrincipalInvestigator</Role>
      </Contact>
      <InformationURL>
        <Name>SolO Archive Support Data</Name>
        <URL>https://issues.cosmos.esa.int/solarorbiterwiki/display/SOSP/Archive+Support+Data</URL>
      </InformationURL>
      <Association>
        <AssociationID>solo-epd-step-main</AssociationID>
        <AssociationType>PartOf</AssociationType>
        <Note>L2 : main</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>so-step-rates</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>http://soar.esac.esa.int/soar</ProviderName>
    <ProviderResourceName>epd-step-rates</ProviderResourceName>
    <InstrumentID>spase://CNES/Instrument/CDPP-AMDA/Solar_Orbiter/EPD-STEP</InstrumentID>
    <MeasurementType>EnergeticParticles</MeasurementType>
    <TemporalDescription>
      <TimeSpan>
        <StartDate>2020-04-30T00:00:11Z</StartDate>
        <StopDate>2021-10-22T11:48:29Z</StopDate>
      </TimeSpan>
      <CadenceMin>PT1S</CadenceMin>
      <CadenceMax>PT10S</CadenceMax>
    </TemporalDescription>
    <ObservedRegion>Heliosphere.Inner</ObservedRegion>
    <ObservedRegion>Sun.Corona</ObservedRegion>
    <Parameter>
      <Name>ion flux</Name>
      <ParameterKey>solo_stepmain_mflux</ParameterKey>
      <Description>Particle intensities in magnet channel (ions) averaged for all pixels</Description>
      <Units>1/(s cm^2 sr MeV)</Units>
      <RenderingHints>
        <DisplayType>Spectrogram</DisplayType>
      </RenderingHints>
      <Structure>
        <Size>32</Size>
      </Structure>
      <Particle>
        <ParticleQuantity>EnergyFlux</ParticleQuantity>
      </Particle>
    </Parameter>
    <Parameter>
      <Name>ion flux unc</Name>
      <ParameterKey>solo_stepmain_munc</ParameterKey>
      <Description>Uncertainty in magnet channel flux averaged for all pixels</Description>
      <Units>1/(s cm^2 sr MeV)</Units>
      <RenderingHints>
        <DisplayType>Spectrogram</DisplayType>
      </RenderingHints>
      <Structure>
        <Size>32</Size>
      </Structure>
      <Particle>
        <ParticleQuantity>EnergyFlux</ParticleQuantity>
      </Particle>
    </Parameter>
    <Parameter>
      <Name>el flux</Name>
      <ParameterKey>solo_stepmain_eflux</ParameterKey>
      <Description>The electron flux is recovered by subtracting the magnet channel measurements from the integral channel ones</Description>
      <Units>1/(s cm^2 sr MeV)</Units>
      <RenderingHints>
        <DisplayType>Spectrogram</DisplayType>
      </RenderingHints>
      <Structure>
        <Size>32</Size>
      </Structure>
      <Particle>
        <ParticleQuantity>EnergyFlux</ParticleQuantity>
      </Particle>
    </Parameter>
    <Parameter>
      <Name>total flux</Name>
      <ParameterKey>solo_stepmain_iflux</ParameterKey>
      <Description>Particle intensities in integral channel (ions + electrons) averaged for all pixels</Description>
      <Units>1/(s cm^2 sr MeV)</Units>
      <RenderingHints>
        <DisplayType>Spectrogram</DisplayType>
      </RenderingHints>
      <Structure>
        <Size>32</Size>
      </Structure>
      <Particle>
        <ParticleQuantity>EnergyFlux</ParticleQuantity>
      </Particle>
    </Parameter>
    <Parameter>
      <Name>total flux unc</Name>
      <ParameterKey>solo_stepmain_iunc</ParameterKey>
      <Description>Uncertainty in integral channel flux averaged for all pixels</Description>
      <Units>1/(s cm^2 sr MeV)</Units>
      <RenderingHints>
        <DisplayType>Spectrogram</DisplayType>
      </RenderingHints>
      <Structure>
        <Size>32</Size>
      </Structure>
      <Particle>
        <ParticleQuantity>EnergyFlux</ParticleQuantity>
      </Particle>
    </Parameter>
    <Parameter>
      <Name>quality flag</Name>
      <ParameterKey>solo_stepmain_qf</ParameterKey>
      <Description>0: Bad, 1: Known problems, 2: Survey data, 3: Good, 4: Excellent</Description>
      <RenderingHints>
        <DisplayType>TimeSeries</DisplayType>
      </RenderingHints>
      <Support>
        <SupportQuantity>DataQuality</SupportQuantity>
      </Support>
    </Parameter>
  </NumericalData>
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