Commit cbda284ac3a1a39ae27ed71856f0fb5ef3214931

Authored by Elena.Budnik
1 parent 620911e1

work

Instrument/AMDA/MAVEN/LPW.xml 0 → 100644
... ... @@ -0,0 +1,32 @@
  1 +<?xml version="1.0" encoding="UTF-8"?>
  2 +<Spase xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xmlns="http://www.spase-group.org/data/schema" xsi:schemaLocation="http://www.spase-group.org/data/schema http://www.spase-group.org/data/schema/spase-2_2_6.xsd">
  3 + <Version>2.2.6</Version>
  4 + <Instrument>
  5 + <ResourceID>spase://CDPP/Instrument/AMDA/MAVEN/LPW</ResourceID>
  6 + <ResourceHeader>
  7 + <ResourceName>LPW</ResourceName>
  8 + <AlternateName>Langmuir Probe and Waves Instrument</AlternateName>
  9 + <ReleaseDate>2016-01-20T21:10:13Z</ReleaseDate>
  10 + <Description>The Langmuir Probe and Waves (LPW) instrument is part of the Particles and
  11 +Fields (P and F) Package and determines ionospheric properties, wave heating of the
  12 +upper atmosphere, and solar EUV input to the atmosphere.
  13 +
  14 +oals:
  15 + Measure the in situ electron density and electron temperature from the ionospheric peak up to the nominal ionopause location. It will also measure the electric field wave power important for ion heating
  16 + Characterize the basic state of the ionosphere—its global structure, variability, and thermal properties
  17 + Determine the effects of solar wind generated plasma waves and auroral precipitation on ionosphere heating and relationship to plasma escape
  18 + Determine the electron temperatures required for deriving ion recombination rates and ionospheric chemistry
  19 + Identify the ionopause and detached, escaping ionosphere clouds
  20 +For detailed information about LPW visit http://lasp.colorado.edu/home/maven/science/instrument-package/lpw/" target="new">
  21 +LPW home page
  22 + </Description>
  23 + <Contact>
  24 + <PersonID>Bob Ergun</PersonID>
  25 + <Role>PrincipalInvestigator</Role>
  26 + </Contact>
  27 + </ResourceHeader>
  28 + <InstrumentType>LangmuirProbe</InstrumentType>
  29 + <InvestigationName/>
  30 + <ObservatoryID>spase://CDPP/Observatory/AMDA/MAVEN</ObservatoryID>
  31 + </Instrument>
  32 +</Spase>
... ...
NumericalData/AMDA/MAVEN/LPW/mvn-lpw-scpot.xml 0 → 100644
... ... @@ -0,0 +1,74 @@
  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://cdpp1.cesr.fr/AMDA-NG/public/schemas/spase-amda-1_2_0.xsd">
  3 + <Version>2.2.6</Version>
  4 + <NumericalData>
  5 + <ResourceID>spase://CDPP/NumericalData/AMDA/MAVEN/LPW/mvn-lpw-scpot</ResourceID>
  6 + <ResourceHeader>
  7 + <ResourceName>merged s/c potential</ResourceName>
  8 + <ReleaseDate>2015-10-12T10:48:29Z</ReleaseDate>
  9 + <Description>
  10 + </Description>
  11 + <Acknowledgement>
  12 + </Acknowledgement>
  13 + <Contact>
  14 + <PersonID></PersonID>
  15 + <Role>PrincipalInvestigator</Role>
  16 + </Contact>
  17 + <InformationURL>
  18 + <Name/>
  19 + <URL>
  20 + </URL>
  21 + <Description>
  22 + </Description>
  23 + </InformationURL>
  24 + </ResourceHeader>
  25 + <AccessInformation>
  26 + <RepositoryID>spase://SMWG/Repository/CDPP/AMDA</RepositoryID>
  27 + <Availability>Online</Availability>
  28 + <AccessRights>Open</AccessRights>
  29 + <AccessURL>
  30 + <Name>AMDA at CDPP</Name>
  31 + <URL>
  32 + http://amda.cdpp.eu
  33 + </URL>
  34 + </AccessURL>
  35 + <Format>Text.ASCII</Format>
  36 + <Acknowledgement>
  37 + </Acknowledgement>
  38 + </AccessInformation>
  39 + <ProviderName/>
  40 + <InstrumentID>spase://CDPP/Instrument/AMDA/MAVEN/LPW</InstrumentID>
  41 + <MeasurementType>Waves</MeasurementType>
  42 + <TemporalDescription>
  43 + <TimeSpan>
  44 + <StartDate>2014-10-10T00:00:00Z</StartDate>
  45 + <StopDate>2015-08-15T00:00:01Z</StopDate>
  46 + </TimeSpan>
  47 + <Cadence>PT4S</Cadence>
  48 + </TemporalDescription>
  49 + <ObservedRegion>Mars</ObservedRegion>
  50 + <Caveats>Use Flag parameter for Quality of Potential. Use data with flag value
  51 + above 50.</Caveats>
  52 + <Parameter>
  53 + <Name>s/c pot</Name>
  54 + <ParameterKey>mav_lpw_pot</ParameterKey>
  55 + <Description/>
  56 + <Ucd/>
  57 + <Units>V</Units>
  58 + <UnitsConversion/>
  59 + <ValidMin>-20.0</ValidMin>
  60 + <ValidMax>20.0</ValidMax>
  61 + <FillValue>nan</FillValue>
  62 + </Parameter>
  63 + <Parameter>
  64 + <Name>s/c pot quality</Name>
  65 + <ParameterKey>mav_lpw_flag</ParameterKey>
  66 + <Description>Quality of Potential.The uncertainty of the
  67 + values with a scale of 0-100. 100 is the best quality. Use data with flag value
  68 + above 50</Description>
  69 + <Ucd/>
  70 + <Units/>
  71 + <UnitsConversion/>
  72 + </Parameter>
  73 +</NumericalData>
  74 +</Spase>
... ...
NumericalData/AMDA/MAVEN/MAG/mav-mag-pds.xml
... ... @@ -48,5 +48,9 @@
48 48 <ObservedRegion>Mars</ObservedRegion>
49 49 <Caveats>
50 50 </Caveats>
51   -<Parameter><Name>b_mso</Name><ParameterKey>mavb_mso</ParameterKey><Description/><Ucd/><Units>nT</Units><UnitsConversion/><Structure><Size>3</Size><Element><Name>bx</Name><Qualifier/><Index/><ParameterKey>mavb_mso(0)</ParameterKey><ValidMin/><ValidMax/><FillValue/></Element><Element><Name>by</Name><Qualifier/><Index/><ParameterKey>mavb_mso(1)</ParameterKey><ValidMin/><ValidMax/><FillValue/></Element><Element><Name>bz</Name><Qualifier/><Index/><ParameterKey>mavb_mso(2)</ParameterKey><ValidMin/><ValidMax/><FillValue/></Element></Structure></Parameter><Parameter><Name>b_IAU_Mars</Name><ParameterKey>mavb_iau</ParameterKey><Description/><Ucd/><Units>nT</Units><UnitsConversion/><Structure><Size>3</Size><Element><Name>bx</Name><Qualifier/><Index/><ParameterKey>mavb_iau(0)</ParameterKey><ValidMin/><ValidMax/><FillValue/></Element><Element><Name>by</Name><Qualifier/><Index/><ParameterKey>mavb_iau(1)</ParameterKey><ValidMin/><ValidMax/><FillValue/></Element><Element><Name>bz</Name><Qualifier/><Index/><ParameterKey>mavb_iau(2)</ParameterKey><ValidMin/><ValidMax/><FillValue/></Element></Structure></Parameter><Parameter><Name>b_tot</Name><ParameterKey>mavb_tot</ParameterKey><Description/><Ucd/><Units>nT</Units><UnitsConversion/></Parameter></NumericalData>
  51 +<Parameter>
  52 + <Name>b_mso</Name>
  53 + <ParameterKey>mavb_mso</ParameterKey>
  54 + <Description/>
  55 + <Ucd/><Units>nT</Units><UnitsConversion/><Structure><Size>3</Size><Element><Name>bx</Name><Qualifier/><Index/><ParameterKey>mavb_mso(0)</ParameterKey><ValidMin/><ValidMax/><FillValue/></Element><Element><Name>by</Name><Qualifier/><Index/><ParameterKey>mavb_mso(1)</ParameterKey><ValidMin/><ValidMax/><FillValue/></Element><Element><Name>bz</Name><Qualifier/><Index/><ParameterKey>mavb_mso(2)</ParameterKey><ValidMin/><ValidMax/><FillValue/></Element></Structure></Parameter><Parameter><Name>b_IAU_Mars</Name><ParameterKey>mavb_iau</ParameterKey><Description/><Ucd/><Units>nT</Units><UnitsConversion/><Structure><Size>3</Size><Element><Name>bx</Name><Qualifier/><Index/><ParameterKey>mavb_iau(0)</ParameterKey><ValidMin/><ValidMax/><FillValue/></Element><Element><Name>by</Name><Qualifier/><Index/><ParameterKey>mavb_iau(1)</ParameterKey><ValidMin/><ValidMax/><FillValue/></Element><Element><Name>bz</Name><Qualifier/><Index/><ParameterKey>mavb_iau(2)</ParameterKey><ValidMin/><ValidMax/><FillValue/></Element></Structure></Parameter><Parameter><Name>b_tot</Name><ParameterKey>mavb_tot</ParameterKey><Description/><Ucd/><Units>nT</Units><UnitsConversion/></Parameter></NumericalData>
52 56 </Spase>
... ...