<?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_3_0.xsd">
   <Version>2.3.0</Version>
   <NumericalData>
      <ResourceID>spase://CNES/NumericalData/CDPP-AMDA/PSP/epiHi/psp-let1-1min</ResourceID>
      <ResourceHeader>
          <ResourceName>LET1 1min</ResourceName>
          <AlternateName>Low Energy Telescope 1 1 min rate</AlternateName>      
          <ReleaseDate>2019-11-12T10:48:29Z</ReleaseDate>
         <Description>         
             LET1 and LET2 are similar in design to the HET, cylinders containing a central stack of detector disks and positionally 
             sensitive detectors at the ends. LET1 has 1000-micron thick detector disks in the central stack, except for the end disks 
             which are 500 microns. At the front of the cylinder, separate from the central stack, is a 12 micron thick disk and then a 
             25 micron disk. The back of the detector has the same arrangement. The front of the detector also has a thin window 
             (~3 micron silicon equivalent). The 12, 25, and 500 micron thick disks are all separated into five active elements in the 
             same way as the HET for positional determination. The Low-Energy Telescopes can measure protons and heavy ions from approximately 
             1 MeV to greater than 20 MeV/n and electrons from about 0.5 MeV to 2 MeV. 
             The measurements are divided into two different sides of the instrument, A and B
         </Description>
         <Acknowledgement>
             Please acknowledge the National Aeronautics and Space Administration, NASA
         </Acknowledgement>
         <Contact>
           <PersonID>spase://SMWG/Person/David.J.McComas</PersonID>
           <Role>PrincipalInvestigator</Role>
         </Contact>
          <Contact>
              <PersonID>spase://SMWG/Person/Eric.R.Christian</PersonID>
              <Role>DeputyPI</Role>
          </Contact>
          <InformationURL>
           <Name>PSP/ISoIS Energetic Particle Data - User Guide</Name>
              <URL>https://spdf.sci.gsfc.nasa.gov/pub/data/psp/isois/ISOIS_Data_Glossary.pdf</URL>
         </InformationURL>
         <InformationURL>
            <Name>Parker Solar Probe Mission Instrument web page, JPL</Name>
             <URL>http://parkersolarprobe.jhuapl.edu/Spacecraft/index.php#Instruments</URL>
         </InformationURL>
          <Association>
              <AssociationID>psp-isois-let1</AssociationID>
              <AssociationType>PartOf</AssociationType>
              <Note>LET1</Note>
          </Association>
      </ResourceHeader>
      <AccessInformation>
         <RepositoryID>spase://SMWG/Repository/CNES/CDPP-AMDA</RepositoryID>
         <Availability>Online</Availability>
         <AccessRights>Open</AccessRights>
         <AccessURL>
            <Name>AMDA at CDPP</Name>
            <URL>
                http://amda.cdpp.eu
            </URL>
         </AccessURL>
         <Format>Text</Format>
         <Acknowledgement>
                AMDA is a science analysis system provided by the Centre de Donnees de la 
                Physique des Plasmas (CDPP) supported by CNRS, CNES, Observatoire de Paris and 
                Universite Paul Sabatier, Toulouse
         </Acknowledgement>
      </AccessInformation>
      <ProviderName>SPDF</ProviderName> 
      <ProviderAcknowlegment> 
          Please acknowledge the CDAWeb team at GSFC/SPDF.</ProviderAcknowlegment>
      <InstrumentID>spase://CNES/Instrument/CDPP-AMDA/PSP/epiHi</InstrumentID>
      <MeasurementType>EnergeticParticles</MeasurementType>
      <TemporalDescription>
         <TimeSpan>
            <StartDate>2018-09-02T00:00:12Z</StartDate>
             <StopDate>2025-08-12T23:59:55Z</StopDate>
         </TimeSpan>
         <Cadence>PT60S</Cadence>
      </TemporalDescription>
      <ObservedRegion>Heliosphere.Inner</ObservedRegion>
      <ObservedRegion>Sun.Corona</ObservedRegion>
      <Parameter>
         <Name>h+ flux side A</Name>
         <ParameterKey>psp_let1_1min_AHf</ParameterKey>
         <Description>
             Proton flux side A
         </Description>
         <Units>1/cm²/sr/s/(MeV/nuc)</Units>
         <RenderingHints>
              <DisplayType>Spectrogram</DisplayType>
         </RenderingHints>
          <Particle>
              <ParticleQuantity>EnergyFlux</ParticleQuantity>
          </Particle>
      </Parameter>
       <Parameter>
           <Name>h+ A uncertainty</Name>
           <ParameterKey>psp_let1_1min_AHfu</ParameterKey>
           <Description>
               Proton flux side A uncertainty 
           </Description>
           <Units>1/cm²/sr/s/(MeV/nuc)</Units>
           <RenderingHints>
               <DisplayType>Spectrogram</DisplayType>
           </RenderingHints>
           <Particle>
               <ParticleQuantity>EnergyFlux</ParticleQuantity>
           </Particle>
       </Parameter>
       <Parameter>
           <Name>h+ flux side B</Name>
           <ParameterKey>psp_let1_1min_BHf</ParameterKey>
           <Description>
               Proton flux side B
           </Description>
           <Units>1/cm²/sr/s/(MeV/nuc)</Units>
           <RenderingHints>
               <DisplayType>Spectrogram</DisplayType>
           </RenderingHints>
           <Particle>
               <ParticleQuantity>EnergyFlux</ParticleQuantity>
           </Particle>
       </Parameter>
       <Parameter>
           <Name>h+ B uncertainty</Name>
           <ParameterKey>psp_let1_1min_BHfu</ParameterKey>
           <Description>
               Proton flux side B uncertainty 
           </Description>
           <Units>1/cm²/sr/s/(MeV/nuc)</Units>
           <RenderingHints>
               <DisplayType>Spectrogram</DisplayType>
           </RenderingHints>
           <Particle>
               <ParticleQuantity>EnergyFlux</ParticleQuantity>
           </Particle>
       </Parameter>
       <Parameter>
           <Name>he flux side A</Name>
           <ParameterKey>psp_let1_1min_AHef</ParameterKey>
           <Description>
               Helium flux side A
           </Description>
           <Units>1/cm²/sr/s/(MeV/nuc)</Units>
           <RenderingHints>
               <DisplayType>Spectrogram</DisplayType>
           </RenderingHints>
           <Particle>
               <ParticleQuantity>EnergyFlux</ParticleQuantity>
           </Particle>
       </Parameter>
       <Parameter>
           <Name>he A uncertainty</Name>
           <ParameterKey>psp_let1_1min_AHefu</ParameterKey>
           <Description>
               Helium flux side A uncertainty 
           </Description>
           <Units>1/cm²/sr/s/(MeV/nuc)</Units>
           <RenderingHints>
               <DisplayType>Spectrogram</DisplayType>
           </RenderingHints>
           <Particle>
               <ParticleQuantity>EnergyFlux</ParticleQuantity>
           </Particle>
       </Parameter>
       <Parameter>
           <Name>he flux side B</Name>
           <ParameterKey>psp_let1_1min_BHef</ParameterKey>
           <Description>
               Helium flux side B
           </Description>
           <Units>1/cm²/sr/s/(MeV/nuc)</Units>
           <RenderingHints>
               <DisplayType>Spectrogram</DisplayType>
           </RenderingHints>
           <Particle>
               <ParticleQuantity>EnergyFlux</ParticleQuantity>
           </Particle>
       </Parameter>
       <Parameter>
           <Name>he B uncertainty</Name>
           <ParameterKey>psp_let1_1min_BHefu</ParameterKey>
           <Description>
               Helium flux side B uncertainty 
           </Description>
           <Units>1/cm²/sr/s/(MeV/nuc)</Units>
           <RenderingHints>
               <DisplayType>Spectrogram</DisplayType>
           </RenderingHints>
           <Particle>
               <ParticleQuantity>EnergyFlux</ParticleQuantity>
           </Particle>
       </Parameter>
</NumericalData>
</Spase>