corrections on PSP SPANAi and ISOIS

Quentin Brzustowski
1 parent 4e56d480
Showing 13 changed files with 165 additions and 16 deletions Show diff stats
NumericalData/CDPP-AMDA/PSP/SPI/psp-spi-Hmom.xml
NumericalData/CDPP-AMDA/PSP/SPI/psp-spi-amom.xml
NumericalData/CDPP-AMDA/PSP/SPI/psp-spi-asp.xml
NumericalData/CDPP-AMDA/PSP/epiHi/psp-let2-1hr.xml
NumericalData/CDPP-AMDA/PSP/epiHi/psp-let2-1min.xml
NumericalData/CDPP-AMDA/PSP/epiLo/psp-loic-omc.xml
NumericalData/CDPP-AMDA/PSP/epiLo/psp-loic-omd.xml
NumericalData/CDPP-AMDA/PSP/epiLo/psp-loic-omp.xml
NumericalData/CDPP-AMDA/PSP/epiLo/psp-loic-omr.xml
NumericalData/CDPP-AMDA/PSP/epiLo/psp-loic-omt.xml
NumericalData/CDPP-AMDA/PSP/epiLo/psp-lope-ome.xml
NumericalData/CDPP-AMDA/PSP/epiLo/psp-lope-omf.xml
NumericalData/CDPP-AMDA/PSP/epiLo/psp-lope-omg.xml
@@ -91,21 +91,95 @@
        </Parameter>
        <Parameter>
            <Name>t_temp_rtn</Name>
-           <ParameterKey>psp_spc_Hwt</ParameterKey>
+           <ParameterKey>psp_spi_Hwt</ParameterKey>
            <Description>Temperature Tensor in RTN frame</Description>
            <Units>eV</Units>
+           <CoordinateSystem>
+               <CoordinateRepresentation>Cartesian</CoordinateRepresentation>
+               <CoordinateSystemName>RTN</CoordinateSystemName>
+           </CoordinateSystem>
            <RenderingHints>
                <DisplayType>TimeSeries</DisplayType>
            </RenderingHints>
+           <Structure>
+               <Size>6</Size>
+               <Element>
+                   <Name>Txx</Name>
+                   <Index>1</Index>
+                   <ParameterKey>psp_spi_Hwt(0)</ParameterKey>
+               </Element>
+               <Element>
+                   <Name>Tyy</Name>
+                   <Index>2</Index>
+                   <ParameterKey>psp_spi_Hwt(1)</ParameterKey>
+               </Element>
+               <Element>
+                   <Name>Tzz</Name>
+                   <Index>3</Index>
+                   <ParameterKey>psp_spi_Hwt(2)</ParameterKey>
+               </Element>
+               <Element>
+                   <Name>Txy</Name>
+                   <Index>4</Index>
+                   <ParameterKey>psp_spi_Hwt(3)</ParameterKey>
+               </Element>
+               <Element>
+                   <Name>Txz</Name>
+                   <Index>5</Index>
+                   <ParameterKey>psp_spi_Hwt(4)</ParameterKey>
+               </Element>
+               <Element>
+                   <Name>Tyz</Name>
+                   <Index>6</Index>
+                   <ParameterKey>psp_spi_Hwt(5)</ParameterKey>
+               </Element>
+           </Structure>
        </Parameter>
        <Parameter>
            <Name>t_temp_sc</Name>
-           <ParameterKey>psp_spc_Hwt_sc</ParameterKey>
+           <ParameterKey>psp_spi_Hwt_sc</ParameterKey>
            <Description>Temperature Tensor in SC frame</Description>
            <Units>eV</Units>
+           <CoordinateSystem>
+               <CoordinateRepresentation>Cartesian</CoordinateRepresentation>
+               <CoordinateSystemName>SC</CoordinateSystemName>
+           </CoordinateSystem>
            <RenderingHints>
                <DisplayType>TimeSeries</DisplayType>
            </RenderingHints>
+           <Structure>
+               <Size>6</Size>
+               <Element>
+                   <Name>Txx</Name>
+                   <Index>1</Index>
+                   <ParameterKey>psp_spi_Hwt_sc(0)</ParameterKey>
+               </Element>
+               <Element>
+                   <Name>Tyy</Name>
+                   <Index>2</Index>
+                   <ParameterKey>psp_spi_Hwt_sc(1)</ParameterKey>
+               </Element>
+               <Element>
+                   <Name>Tzz</Name>
+                   <Index>3</Index>
+                   <ParameterKey>psp_spi_Hwt_sc(2)</ParameterKey>
+               </Element>
+               <Element>
+                   <Name>Txy</Name>
+                   <Index>4</Index>
+                   <ParameterKey>psp_spi_Hwt_sc(3)</ParameterKey>
+               </Element>
+               <Element>
+                   <Name>Txz</Name>
+                   <Index>5</Index>
+                   <ParameterKey>psp_spi_Hwt_sc(4)</ParameterKey>
+               </Element>
+               <Element>
+                   <Name>Tyz</Name>
+                   <Index>6</Index>
+                   <ParameterKey>psp_spi_Hwt_sc(5)</ParameterKey>
+               </Element>
+           </Structure>
        </Parameter>
        <Parameter>
            <Name>v_rtn</Name>
@@ -91,21 +91,95 @@
        </Parameter>
        <Parameter>
            <Name>t_temp_rtn</Name>
-           <ParameterKey>psp_spc_awt</ParameterKey>
+           <ParameterKey>psp_spi_awt</ParameterKey>
            <Description>Temperature Tensor in RTN frame</Description>
            <Units>eV</Units>
+           <CoordinateSystem>
+               <CoordinateRepresentation>Cartesian</CoordinateRepresentation>
+               <CoordinateSystemName>RTN</CoordinateSystemName>
+           </CoordinateSystem>
            <RenderingHints>
                <DisplayType>TimeSeries</DisplayType>
            </RenderingHints>
+           <Structure>
+               <Size>6</Size>
+               <Element>
+                   <Name>Txx</Name>
+                   <Index>1</Index>
+                   <ParameterKey>psp_spi_awt(0)</ParameterKey>
+               </Element>
+               <Element>
+                   <Name>Tyy</Name>
+                   <Index>2</Index>
+                   <ParameterKey>psp_spi_awt(1)</ParameterKey>
+               </Element>
+               <Element>
+                   <Name>Tzz</Name>
+                   <Index>3</Index>
+                   <ParameterKey>psp_spi_awt(2)</ParameterKey>
+               </Element>
+               <Element>
+                   <Name>Txy</Name>
+                   <Index>4</Index>
+                   <ParameterKey>psp_spi_awt(3)</ParameterKey>
+               </Element>
+               <Element>
+                   <Name>Txz</Name>
+                   <Index>5</Index>
+                   <ParameterKey>psp_spi_awt(4)</ParameterKey>
+               </Element>
+               <Element>
+                   <Name>Tyz</Name>
+                   <Index>6</Index>
+                   <ParameterKey>psp_spi_awt(5)</ParameterKey>
+               </Element>
+           </Structure>
        </Parameter>
        <Parameter>
            <Name>t_temp_sc</Name>
-           <ParameterKey>psp_spc_awt_sc</ParameterKey>
+           <ParameterKey>psp_spi_awt_sc</ParameterKey>
            <Description>Temperature Tensor in SC frame</Description>
            <Units>eV</Units>
+           <CoordinateSystem>
+               <CoordinateRepresentation>Cartesian</CoordinateRepresentation>
+               <CoordinateSystemName>SC</CoordinateSystemName>
+           </CoordinateSystem>
            <RenderingHints>
                <DisplayType>TimeSeries</DisplayType>
            </RenderingHints>
+           <Structure>
+               <Size>6</Size>
+               <Element>
+                   <Name>Txx</Name>
+                   <Index>1</Index>
+                   <ParameterKey>psp_spi_awt_sc(0)</ParameterKey>
+               </Element>
+               <Element>
+                   <Name>Tyy</Name>
+                   <Index>2</Index>
+                   <ParameterKey>psp_spi_awt_sc(1)</ParameterKey>
+               </Element>
+               <Element>
+                   <Name>Tzz</Name>
+                   <Index>3</Index>
+                   <ParameterKey>psp_spi_awt_sc(2)</ParameterKey>
+               </Element>
+               <Element>
+                   <Name>Txy</Name>
+                   <Index>4</Index>
+                   <ParameterKey>psp_spi_awt_sc(3)</ParameterKey>
+               </Element>
+               <Element>
+                   <Name>Txz</Name>
+                   <Index>5</Index>
+                   <ParameterKey>psp_spi_awt_sc(4)</ParameterKey>
+               </Element>
+               <Element>
+                   <Name>Tyz</Name>
+                   <Index>6</Index>
+                   <ParameterKey>psp_spi_awt_sc(5)</ParameterKey>
+               </Element>
+           </Structure>
        </Parameter>
        <Parameter>
            <Name>v_rtn</Name>
@@ -77,7 +77,7 @@
            </Description>
            <Units>eV/cm2-s-ster-eV</Units>
            <RenderingHints>
-               <DisplayType>TimeSeries</DisplayType>
+               <DisplayType>Spectrogram</DisplayType>
            </RenderingHints>
        </Parameter>
        <Parameter>
@@ -88,7 +88,7 @@
            </Description>
            <Units>eV/cm2-s-ster-eV</Units>
            <RenderingHints>
-               <DisplayType>TimeSeries</DisplayType>
+               <DisplayType>Spectrogram</DisplayType>
            </RenderingHints>
        </Parameter>
        <Parameter>
@@ -99,7 +99,7 @@
            </Description>
            <Units>eV/cm2-s-ster-eV</Units>
            <RenderingHints>
-               <DisplayType>TimeSeries</DisplayType>
+               <DisplayType>Spectrogram</DisplayType>
            </RenderingHints>
        </Parameter>
  
@@ -15,7 +15,7 @@
              (~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. LET2 is similar to LET1 but does not have the end 12, 25, and 500 micron disks.
              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. 
+             1 MeV to greater than 20 MeV/n and electrons from about 0.5 MeV to 2 MeV. LET2 telescope, unlike LET1 and HET, is single sided, with its only side called C, oriented at +135° from the sunward direction.
          </Description>
          <Acknowledgement>
              Please acknowledge the National Aeronautics and Space Administration, NASA
@@ -16,6 +16,7 @@
              same way as the HET for positional determination. LET2 is similar to LET1 but does not have the end 12, 25, and 500 micron disks.
              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. 
+             LET2 telescope, unlike LET1 and HET, is single sided, with its only side called C, oriented at +135° from the sunward direction.
          </Description>
          <Acknowledgement>
              Please acknowledge the National Aeronautics and Space Administration, NASA
@@ -4,7 +4,7 @@
    <NumericalData>
       <ResourceID>spase://CNES/NumericalData/CDPP-AMDA/PSP/epiLo/psp-loic-omc</ResourceID>
       <ResourceHeader>
-          <ResourceName>omni chan. C</ResourceName>
+          <ResourceName>omni channel C</ResourceName>
           <ReleaseDate>2019-11-12T10:48:29Z</ReleaseDate>
          <Description>         
              Ion composition mode channel C. The available spectras are obtained by summing over all directions.
@@ -4,7 +4,7 @@
    <NumericalData>
       <ResourceID>spase://CNES/NumericalData/CDPP-AMDA/PSP/epiLo/psp-loic-omd</ResourceID>
       <ResourceHeader>
-          <ResourceName>omni chan. D</ResourceName>
+          <ResourceName>omni channel D</ResourceName>
           <ReleaseDate>2019-11-12T10:48:29Z</ReleaseDate>
          <Description>         
              Ion composition mode channel D. The available spectras are obtained by summing over all directions.
@@ -4,7 +4,7 @@
    <NumericalData>
       <ResourceID>spase://CNES/NumericalData/CDPP-AMDA/PSP/epiLo/psp-loic-omp</ResourceID>
       <ResourceHeader>
-          <ResourceName>omni chan. P</ResourceName>
+          <ResourceName>omni channel P</ResourceName>
           <ReleaseDate>2019-11-12T10:48:29Z</ReleaseDate>
          <Description>         
              Ion composition mode channel P. The available spectras are obtained by summing over all directions.
@@ -4,7 +4,7 @@
    <NumericalData>
       <ResourceID>spase://CNES/NumericalData/CDPP-AMDA/PSP/epiLo/psp-loic-omr</ResourceID>
       <ResourceHeader>
-          <ResourceName>omni chan. R</ResourceName>
+          <ResourceName>omni channel R</ResourceName>
           <ReleaseDate>2019-11-12T10:48:29Z</ReleaseDate>
          <Description>         
              Ion composition mode channel R. The available spectras are obtained by summing over all directions.
@@ -4,7 +4,7 @@
    <NumericalData>
       <ResourceID>spase://CNES/NumericalData/CDPP-AMDA/PSP/epiLo/psp-loic-omt</ResourceID>
       <ResourceHeader>
-          <ResourceName>omni chan. T</ResourceName>
+          <ResourceName>omni channel T</ResourceName>
           <ReleaseDate>2019-11-12T10:48:29Z</ReleaseDate>
          <Description>         
              Ion composition mode channel T. The available spectras are obtained by summing over all directions.
@@ -4,7 +4,7 @@
    <NumericalData>
       <ResourceID>spase://CNES/NumericalData/CDPP-AMDA/PSP/epiLo/psp-lope-ome</ResourceID>
       <ResourceHeader>
-          <ResourceName>omni chan. E</ResourceName>
+          <ResourceName>omni channel E</ResourceName>
           <ReleaseDate>2019-11-12T10:48:29Z</ReleaseDate>
          <Description>         
              Particle Energy mode channel E. The available spectras are obtained by summing over all directions.
@@ -4,7 +4,7 @@
    <NumericalData>
       <ResourceID>spase://CNES/NumericalData/CDPP-AMDA/PSP/epiLo/psp-lope-omf</ResourceID>
       <ResourceHeader>
-          <ResourceName>omni chan. F</ResourceName>
+          <ResourceName>omni channel F</ResourceName>
           <ReleaseDate>2019-11-12T10:48:29Z</ReleaseDate>
          <Description>         
              Particle Energy mode channel F. The available spectras are obtained by summing over all directions.
@@ -4,7 +4,7 @@
    <NumericalData>
       <ResourceID>spase://CNES/NumericalData/CDPP-AMDA/PSP/epiLo/psp-lope-omg</ResourceID>
       <ResourceHeader>
-          <ResourceName>omni chan. G</ResourceName>
+          <ResourceName>omni channel G</ResourceName>
           <ReleaseDate>2019-11-12T10:48:29Z</ReleaseDate>
          <Description>         
              Particle Energy mode channel G. The available spectras are obtained by summing over all directions.