CDPP / CNES

Commit 8e12a5537aac57cd9262456455e7ad42806ae1bf

Authored by Benjamin Renard
1 parent a634885d
Exists in master

Merge BEPI/MPO/SIXP dataset from amdadev into master

Showing 9 changed files with 805 additions and 15 deletions   Show diff stats
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Instrument/CDPP-AMDA/BepiColombo/MPO/SIXS.xml 0 → 100644
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  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-2.4.1.xsd">
  3 + <Version>2.4.1</Version>
  4 + <Instrument>
  5 + <ResourceID>spase://CNES/Instrument/CDPP-AMDA/BepiColombo/MPO/SIXS</ResourceID>
  6 + <ResourceHeader>
  7 + <ResourceName>SIXS</ResourceName>
  8 + <AlternateName>Solar intensity X-ray and particles spectrometer</AlternateName>
  9 + <ReleaseDate>2024-10-25T16:02:13Z</ReleaseDate>
  10 + <Description>The objective of SIXS is to perform measurements of X-rays and particles of solar origin at the position of BepiColombo.
  11 + The instrument is capable of broadband measurements of X-ray, proton, and electron spectra with high time resolution and a very
  12 + wide Field-Of-View.
  13 +
  14 + The surface of Mercury is bombarded with intensive solar X-rays and particle radiation, which make the Hermean surface glow in X-rays.
  15 + Changes of the input radiation are due to solar activity and eruptive phenomena on the Sun.
  16 + The radiation varies unpredictably with time scales from seconds to years and several orders of magnitude in intensity.
  17 + The X-ray glow of Mercury provides a "Hermean signature" in the form of fluorescence. The primary task of SIXS is to make observations
  18 + that are derivable to accurate physical estimates of solar X-ray, proton and electron irradiation at the surface of Mercury.
  19 + The surface is simultaneously observed by the Mercury Imaging X-ray Spectrometer (MIXS), a closely linked instrument.
  20 + Data provided by SIXS is mandatory for a valid fluorescence analysis of MIXS spectra. The solar X-ray monitor is also the single
  21 + source of this necessary data in orbital phases of Mercury while the planet is behind the Sun.
  22 +
  23 + Independent scientific objectives for SIXS are studies of temporal and spectral variability of solar X-ray corona, temporal behaviour
  24 + and X-ray spectral classification of solar flares, and temporal and spectral variability of proton and electron radiation near Mercury.
  25 + These will be obtained as bonuses, when the main task for the instrument is performed.</Description>
  26 + <Contact>
  27 + <PersonID>spase://CNES/Person/CDPP-AMDA/Emilia.Kilpua</PersonID>
  28 + <Role>PrincipalInvestigator</Role>
  29 + </Contact>
  30 + <Contact>
  31 + <PersonID>spase://SMWG/Person/Manuel.Grande</PersonID>
  32 + <Role>CoInvestigator</Role>
  33 + </Contact>
  34 + <Contact>
  35 + <PersonID>spase://SMWG/Person/Rami.Vainio</PersonID>
  36 + <Role>CoInvestigator</Role>
  37 + </Contact>
  38 + <InformationURL>
  39 + <Name>Huovelin, J., Vainio, R., Kilpua, E. et al. Solar Intensity X-Ray and Particle Spectrometer SIXS: Instrument Design and First Results. Space Sci Rev 216, 94 (2020)</Name>
  40 + <URL>https://doi.org/10.1007/s11214-020-00717-3</URL>
  41 + <Description>Reference paper</Description>
  42 + </InformationURL>
  43 + <InformationURL>
  44 + <Name>SIXS - Solar intensity X-ray and particles spectrometer</Name>
  45 + <URL>https://www.cosmos.esa.int/web/bepicolombo/sixs</URL>
  46 + <Description>Instrument description</Description>
  47 + </InformationURL>
  48 + </ResourceHeader>
  49 + <InstrumentType>EnergeticParticleInstrument</InstrumentType>
  50 + <InvestigationName>Solar intensity X-ray and particles spectrometer on MPO</InvestigationName>
  51 + <ObservatoryID>spase://CNES/Observatory/CDPP-AMDA/BepiColombo/MPO</ObservatoryID>
  52 + </Instrument>
  53 +</Spase>
... ...
NumericalData/CDPP-AMDA/BepiColombo/MPO/SIXS/bepi-sixs-cruise.l3.xml 0 → 100644
  Diff comments   View file @8e12a55
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  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://www.spase-group.org/data/schema/spase-2.4.1.xsd">
  3 + <Version>2.4.1</Version>
  4 + <NumericalData>
  5 + <ResourceID>spase://CNES/NumericalData/CDPP-AMDA/BepiColombo/MPO/SIXS/bepi-sixs-cruise.l3</ResourceID>
  6 + <ResourceHeader>
  7 + <ResourceName>SIXS-P sensor - derived</ResourceName>
  8 + <ReleaseDate>2024-10-25T13:30:15Z</ReleaseDate>
  9 + <Description>DERIVED 2-minute-averaged energetic particle flux data obtained by the SIXS-P sensor aboard the BepiColombo MPO s/c.
  10 + All flux values are GROUND CALIBRATED data in units of 1/(cm^2 sr s MeV) and averaged to 2-Minute-Mean values.
  11 + The flux is given in four viewing directions, indicated by prefixes Side0_, Side1_, Side2_, and Side3_ in the column names.
  12 + Noisy periods and periods with significant packet loss between the instrument and back-end electronics were removed.
  13 + These data were calculated using the results of the so-called bow-tie analysis, which means that the fluxes are given at an effective
  14 + energy of the channel. This approximation works well only when the energy spectrum of the particles is a decreasing function of energy.
  15 +
  16 + For a full description of the data, please refer to "A description of the BepiColombo/SIXS-P cruise phase data product",
  17 + available at https://doi.org/10.5281/zenodo.13692883
  18 +
  19 + Effective energy (MeV) - Electron channels - Side 0 : 0.0714 - 0.106 - 0.169 - 0.278 - 0.918 - 2.12 - 7.01
  20 +
  21 + Effective energy (MeV) - Electron channels - Side 1-4 : 0.0726 - 0.107 - 0.168 - 0.275 - 0.918 - 2.22 - 6.46
  22 +
  23 + Effective energy (MeV) - Proton channels - Side 0 : 1.09 - 1.19 - 1.51 - 2.26 - 3.94 - 8.02 - 14.3 - 25.4 - 49.8
  24 +
  25 + Effective energy (MeV) - Proton channels - Side 1-4 : 1.12 - 1.22 - 1.53 - 2.28 - 3.94 - 8.02 - 14.5 - 25.1 - 49.8
  26 +
  27 + Effective energy (MeV) - Proton channels as electron ones - Side 0 : 0.468 - 0.824 - 2.22
  28 +
  29 + Effective energy (MeV) - Proton channels as electron ones - Side 1-4 : 0.459 - 0.854 - 2.47</Description>
  30 + <Contact>
  31 + <PersonID>spase://CNES/Person/CDPP-AMDA/Philipp.Oleynik</PersonID>
  32 + <Role>DataProducer</Role>
  33 + </Contact>
  34 + <Contact>
  35 + <PersonID>spase://CNES/Person/CDPP-AMDA/Christian.Palmroos</PersonID>
  36 + <Role>DataProducer</Role>
  37 + </Contact>
  38 + <Contact>
  39 + <PersonID>spase://CNES/Person/CDPP-AMDA/Jan.Gieseler</PersonID>
  40 + <Role>DataProducer</Role>
  41 + </Contact>
  42 + <Contact>
  43 + <PersonID>spase://SMWG/Person/Rami.Vainio</PersonID>
  44 + <Role>DataProducer</Role>
  45 + </Contact>
  46 + <InformationURL>
  47 + <Name>Oleynik, P., Palmroos, C., Gieseler, J., Vainio, R. (2024). A description of the BepiColombo/SIXS-P cruise phase data product (1.0.2). Zenodo</Name>
  48 + <URL>https://doi.org/10.5281/zenodo.13903855</URL>
  49 + <Description>Technical description / Data User Guide of the BepiColombo MPO SIXS-P Derived Data Product</Description>
  50 + </InformationURL>
  51 + <InformationURL>
  52 + <Name>SIXS-P 2-minute-averaged energetic particle flux data</Name>
  53 + <URL>https://data.serpentine-h2020.eu/l3data/bepi/</URL>
  54 + <Description>BepiColombo MPO SIXS-P Derived Data Product available at data.serpentine-h2020.eu</Description>
  55 + </InformationURL>
  56 + <Association>
  57 + <AssociationID>bepi-sixs-cruise</AssociationID>
  58 + <AssociationType>PartOf</AssociationType>
  59 + <Note>cruise</Note>
  60 + </Association>
  61 + </ResourceHeader>
  62 + <AccessInformation>
  63 + <RepositoryID>spase://SMWG/Repository/CDPP/AMDA</RepositoryID>
  64 + <Availability>Online</Availability>
  65 + <AccessRights>Open</AccessRights>
  66 + <AccessURL>
  67 + <Name>CDPP/AMDA HAPI Server</Name>
  68 + <URL>https://amda.irap.omp.eu/service/hapi</URL>
  69 + <Style>HAPI</Style>
  70 + <ProductKey>bepi-sixs-cruise.l3</ProductKey>
  71 + <Description>Web Service to this product using the HAPI interface.</Description>
  72 + </AccessURL>
  73 + <Format>CSV</Format>
  74 + <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>
  75 + </AccessInformation>
  76 + <AccessInformation>
  77 + <RepositoryID>spase://SMWG/Repository/CDPP/AMDA</RepositoryID>
  78 + <Availability>Online</Availability>
  79 + <AccessRights>Open</AccessRights>
  80 + <AccessURL>
  81 + <Name>CDPP/AMDA Web application</Name>
  82 + <URL>https://amda.cdpp.eu</URL>
  83 + <Description>Access to Data via CDPP/AMDA Web application.</Description>
  84 + </AccessURL>
  85 + <Format>CSV</Format>
  86 + <Format>VOTable</Format>
  87 + <Format>CDF</Format>
  88 + <Format>PNG</Format>
  89 + <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>
  90 + </AccessInformation>
  91 + <ProviderName>SERPENTINE Data Center</ProviderName>
  92 + <InstrumentID>spase://CNES/Instrument/CDPP-AMDA/BepiColombo/MPO/SIXS</InstrumentID>
  93 + <MeasurementType>EnergeticParticles</MeasurementType>
  94 + <TemporalDescription>
  95 + <TimeSpan>
  96 + <StartDate>2020-04-07T00:00:08Z</StartDate>
  97 + <StopDate>2020-04-12T23:59:59Z</StopDate>
  98 + </TimeSpan>
  99 + <CadenceMin>PT2M</CadenceMin>
  100 + </TemporalDescription>
  101 + <Parameter>
  102 + <Name>proton flux @@side@@</Name>
  103 + <ParameterKey>bepi_sixp_p</ParameterKey>
  104 + <Units>1/(cm^2 sr s MeV)</Units>
  105 + <RenderingHints>
  106 + <DisplayType>TimeSeries</DisplayType>
  107 + </RenderingHints>
  108 + <Structure>
  109 + <Size>9</Size>
  110 + <Element>
  111 + <Name>Channel P1 - ~1.1 MeV</Name>
  112 + <Index>1</Index>
  113 + <ParameterKey>bepi_sixp_p(0)</ParameterKey>
  114 + </Element>
  115 + <Element>
  116 + <Name>Channel P2 - ~1.2 MeV</Name>
  117 + <Index>2</Index>
  118 + <ParameterKey>bepi_sixp_p(1)</ParameterKey>
  119 + </Element>
  120 + <Element>
  121 + <Name>Channel P3 - ~1.5 MeV</Name>
  122 + <Index>3</Index>
  123 + <ParameterKey>bepi_sixp_p(2)</ParameterKey>
  124 + </Element>
  125 + <Element>
  126 + <Name>Channel P4 - ~2.27 MeV</Name>
  127 + <Index>4</Index>
  128 + <ParameterKey>bepi_sixp_p(3)</ParameterKey>
  129 + </Element>
  130 + <Element>
  131 + <Name>Channel P5 - ~3.94 MeV</Name>
  132 + <Index>5</Index>
  133 + <ParameterKey>bepi_sixp_p(4)</ParameterKey>
  134 + </Element>
  135 + <Element>
  136 + <Name>Channel P6 - ~8.02 MeV</Name>
  137 + <Index>6</Index>
  138 + <ParameterKey>bepi_sixp_p(5)</ParameterKey>
  139 + </Element>
  140 + <Element>
  141 + <Name>Channel P7 - ~14.4 MeV</Name>
  142 + <Index>7</Index>
  143 + <ParameterKey>bepi_sixp_p(6)</ParameterKey>
  144 + </Element>
  145 + <Element>
  146 + <Name>Channel P8 - ~25.2 MeV</Name>
  147 + <Index>8</Index>
  148 + <ParameterKey>bepi_sixp_p(7)</ParameterKey>
  149 + </Element>
  150 + <Element>
  151 + <Name>Channel P9 - ~49.8 MeV</Name>
  152 + <Index>9</Index>
  153 + <ParameterKey>bepi_sixp_p(8)</ParameterKey>
  154 + </Element>
  155 + </Structure>
  156 + <Particle>
  157 + <ParticleType>Proton</ParticleType>
  158 + <ParticleQuantity>NumberFlux</ParticleQuantity>
  159 + </Particle>
  160 + </Parameter>
  161 + <Parameter>
  162 + <Name>electron flux @@side@@</Name>
  163 + <ParameterKey>bepi_sixp_e</ParameterKey>
  164 + <Units>1/(cm^2 sr s MeV)</Units>
  165 + <RenderingHints>
  166 + <DisplayType>TimeSeries</DisplayType>
  167 + </RenderingHints>
  168 + <Structure>
  169 + <Size>7</Size>
  170 + <Element>
  171 + <Name>Channel E1 - ~0.07 MeV</Name>
  172 + <Index>1</Index>
  173 + <ParameterKey>bepi_sixp_e(0)</ParameterKey>
  174 + </Element>
  175 + <Element>
  176 + <Name>Channel E2 - ~0.10 MeV</Name>
  177 + <Index>2</Index>
  178 + <ParameterKey>bepi_sixp_e(1)</ParameterKey>
  179 + </Element>
  180 + <Element>
  181 + <Name>Channel E3 - ~0.17 MeV</Name>
  182 + <Index>3</Index>
  183 + <ParameterKey>bepi_sixp_e(2)</ParameterKey>
  184 + </Element>
  185 + <Element>
  186 + <Name>Channel E4 - ~0.27 MeV</Name>
  187 + <Index>4</Index>
  188 + <ParameterKey>bepi_sixp_e(3)</ParameterKey>
  189 + </Element>
  190 + <Element>
  191 + <Name>Channel E5 - ~0.92 MeV</Name>
  192 + <Index>5</Index>
  193 + <ParameterKey>bepi_sixp_e(4)</ParameterKey>
  194 + </Element>
  195 + <Element>
  196 + <Name>Channel E6 - ~2.17 MeV</Name>
  197 + <Index>6</Index>
  198 + <ParameterKey>bepi_sixp_e(5)</ParameterKey>
  199 + </Element>
  200 + <Element>
  201 + <Name>Channel E7 - >6.46 MeV</Name>
  202 + <Index>7</Index>
  203 + <ParameterKey>bepi_sixp_e(6)</ParameterKey>
  204 + </Element>
  205 + </Structure>
  206 + <Particle>
  207 + <ParticleType>Electron</ParticleType>
  208 + <ParticleQuantity>NumberFlux</ParticleQuantity>
  209 + </Particle>
  210 + </Parameter>
  211 + <Parameter>
  212 + <Name>electron flux as seen by proton channels @@side@@</Name>
  213 + <ParameterKey>bepi_sixp_pe</ParameterKey>
  214 + <Units>1/(cm^2 sr s MeV)</Units>
  215 + <RenderingHints>
  216 + <DisplayType>TimeSeries</DisplayType>
  217 + </RenderingHints>
  218 + <Structure>
  219 + <Size>3</Size>
  220 + <Element>
  221 + <Name>Channel PE1 - ~0.46 MeV</Name>
  222 + <Index>1</Index>
  223 + <ParameterKey>bepi_sixp_pe(0)</ParameterKey>
  224 + </Element>
  225 + <Element>
  226 + <Name>Channel PE2 - ~0.84 MeV</Name>
  227 + <Index>2</Index>
  228 + <ParameterKey>bepi_sixp_pe(1)</ParameterKey>
  229 + </Element>
  230 + <Element>
  231 + <Name>Channel PE3 - ~2.3 MeV</Name>
  232 + <Index>3</Index>
  233 + <ParameterKey>bepi_sixp_pe(2)</ParameterKey>
  234 + </Element>
  235 + </Structure>
  236 + <Particle>
  237 + <ParticleType>Electron</ParticleType>
  238 + <ParticleQuantity>NumberFlux</ParticleQuantity>
  239 + </Particle>
  240 + </Parameter>
  241 + <Parameter>
  242 + <Name>pitch angles</Name>
  243 + <ParameterKey>bepi_sixp_pa</ParameterKey>
  244 + <Units>deg</Units>
  245 + <RenderingHints>
  246 + <DisplayType>TimeSeries</DisplayType>
  247 + </RenderingHints>
  248 + <Structure>
  249 + <Size>4</Size>
  250 + <Element>
  251 + <Name>Side 0</Name>
  252 + <Index>1</Index>
  253 + <ParameterKey>bepi_sixp_pa(0)</ParameterKey>
  254 + </Element>
  255 + <Element>
  256 + <Name>Side 1</Name>
  257 + <Index>2</Index>
  258 + <ParameterKey>bepi_sixp_pa(1)</ParameterKey>
  259 + </Element>
  260 + <Element>
  261 + <Name>Side 2</Name>
  262 + <Index>3</Index>
  263 + <ParameterKey>bepi_sixp_pa(2)</ParameterKey>
  264 + </Element>
  265 + <Element>
  266 + <Name>Side 3</Name>
  267 + <Index>4</Index>
  268 + <ParameterKey>bepi_sixp_pa(3)</ParameterKey>
  269 + </Element>
  270 + </Structure>
  271 + <Support>
  272 + <SupportQuantity>Orientation</SupportQuantity>
  273 + </Support>
  274 + </Parameter>
  275 + <Parameter>
  276 + <Name>average dead time</Name>
  277 + <ParameterKey>bepi_sixp_dt</ParameterKey>
  278 + <Units>ms/s</Units>
  279 + <RenderingHints>
  280 + <DisplayType>TimeSeries</DisplayType>
  281 + </RenderingHints>
  282 + <Support>
  283 + <SupportQuantity>DataQuality</SupportQuantity>
  284 + </Support>
  285 + </Parameter>
  286 + <Parameter>
  287 + <Name>proton flux error @@side@@</Name>
  288 + <ParameterKey>bepi_sixp_perr</ParameterKey>
  289 + <Units>1/(cm^2 sr s MeV)</Units>
  290 + <RenderingHints>
  291 + <DisplayType>TimeSeries</DisplayType>
  292 + </RenderingHints>
  293 + <Structure>
  294 + <Size>9</Size>
  295 + <Element>
  296 + <Name>Channel P1 - ~1.1 MeV</Name>
  297 + <Index>1</Index>
  298 + <ParameterKey>bepi_sixp_perr(0)</ParameterKey>
  299 + </Element>
  300 + <Element>
  301 + <Name>Channel P2 - ~1.2 MeV</Name>
  302 + <Index>2</Index>
  303 + <ParameterKey>bepi_sixp_perr(1)</ParameterKey>
  304 + </Element>
  305 + <Element>
  306 + <Name>Channel P3 - ~1.5 MeV</Name>
  307 + <Index>3</Index>
  308 + <ParameterKey>bepi_sixp_perr(2)</ParameterKey>
  309 + </Element>
  310 + <Element>
  311 + <Name>Channel P4 - ~2.27 MeV</Name>
  312 + <Index>4</Index>
  313 + <ParameterKey>bepi_sixp_perr(3)</ParameterKey>
  314 + </Element>
  315 + <Element>
  316 + <Name>Channel P5 - ~3.94 MeV</Name>
  317 + <Index>5</Index>
  318 + <ParameterKey>bepi_sixp_perr(4)</ParameterKey>
  319 + </Element>
  320 + <Element>
  321 + <Name>Channel P6 - ~8.02 MeV</Name>
  322 + <Index>6</Index>
  323 + <ParameterKey>bepi_sixp_perr(5)</ParameterKey>
  324 + </Element>
  325 + <Element>
  326 + <Name>Channel P7 - ~14.4 MeV</Name>
  327 + <Index>7</Index>
  328 + <ParameterKey>bepi_sixp_perr(6)</ParameterKey>
  329 + </Element>
  330 + <Element>
  331 + <Name>Channel P8 - ~25.2 MeV</Name>
  332 + <Index>8</Index>
  333 + <ParameterKey>bepi_sixp_perr(7)</ParameterKey>
  334 + </Element>
  335 + <Element>
  336 + <Name>Channel P9 - ~49.8 MeV</Name>
  337 + <Index>9</Index>
  338 + <ParameterKey>bepi_sixp_perr(8)</ParameterKey>
  339 + </Element>
  340 + </Structure>
  341 + <Particle>
  342 + <ParticleType>Proton</ParticleType>
  343 + <ParticleQuantity>NumberFlux</ParticleQuantity>
  344 + </Particle>
  345 + </Parameter>
  346 + <Parameter>
  347 + <Name>proton flux upper error @@side@@</Name>
  348 + <ParameterKey>bepi_sixp_puperr</ParameterKey>
  349 + <Units>1/(cm^2 sr s MeV)</Units>
  350 + <RenderingHints>
  351 + <DisplayType>TimeSeries</DisplayType>
  352 + </RenderingHints>
  353 + <Structure>
  354 + <Size>9</Size>
  355 + <Element>
  356 + <Name>Channel P1 - ~1.1 MeV</Name>
  357 + <Index>1</Index>
  358 + <ParameterKey>bepi_sixp_puperr(0)</ParameterKey>
  359 + </Element>
  360 + <Element>
  361 + <Name>Channel P2 - ~1.2 MeV</Name>
  362 + <Index>2</Index>
  363 + <ParameterKey>bepi_sixp_puperr(1)</ParameterKey>
  364 + </Element>
  365 + <Element>
  366 + <Name>Channel P3 - ~1.5 MeV</Name>
  367 + <Index>3</Index>
  368 + <ParameterKey>bepi_sixp_puperr(2)</ParameterKey>
  369 + </Element>
  370 + <Element>
  371 + <Name>Channel P4 - ~2.27 MeV</Name>
  372 + <Index>4</Index>
  373 + <ParameterKey>bepi_sixp_puperr(3)</ParameterKey>
  374 + </Element>
  375 + <Element>
  376 + <Name>Channel P5 - ~3.94 MeV</Name>
  377 + <Index>5</Index>
  378 + <ParameterKey>bepi_sixp_puperr(4)</ParameterKey>
  379 + </Element>
  380 + <Element>
  381 + <Name>Channel P6 - ~8.02 MeV</Name>
  382 + <Index>6</Index>
  383 + <ParameterKey>bepi_sixp_puperr(5)</ParameterKey>
  384 + </Element>
  385 + <Element>
  386 + <Name>Channel P7 - ~14.4 MeV</Name>
  387 + <Index>7</Index>
  388 + <ParameterKey>bepi_sixp_puperr(6)</ParameterKey>
  389 + </Element>
  390 + <Element>
  391 + <Name>Channel P8 - ~25.2 MeV</Name>
  392 + <Index>8</Index>
  393 + <ParameterKey>bepi_sixp_puperr(7)</ParameterKey>
  394 + </Element>
  395 + <Element>
  396 + <Name>Channel P9 - ~49.8 MeV</Name>
  397 + <Index>9</Index>
  398 + <ParameterKey>bepi_sixp_puperr(8)</ParameterKey>
  399 + </Element>
  400 + </Structure>
  401 + <Particle>
  402 + <ParticleType>Proton</ParticleType>
  403 + <ParticleQuantity>NumberFlux</ParticleQuantity>
  404 + </Particle>
  405 + </Parameter>
  406 + <Parameter>
  407 + <Name>proton flux lower error @@side@@</Name>
  408 + <ParameterKey>bepi_sixp_ploerr</ParameterKey>
  409 + <Units>1/(cm^2 sr s MeV)</Units>
  410 + <RenderingHints>
  411 + <DisplayType>TimeSeries</DisplayType>
  412 + </RenderingHints>
  413 + <Structure>
  414 + <Size>9</Size>
  415 + <Element>
  416 + <Name>Channel P1 - ~1.1 MeV</Name>
  417 + <Index>1</Index>
  418 + <ParameterKey>bepi_sixp_ploerr(0)</ParameterKey>
  419 + </Element>
  420 + <Element>
  421 + <Name>Channel P2 - ~1.2 MeV</Name>
  422 + <Index>2</Index>
  423 + <ParameterKey>bepi_sixp_ploerr(1)</ParameterKey>
  424 + </Element>
  425 + <Element>
  426 + <Name>Channel P3 - ~1.5 MeV</Name>
  427 + <Index>3</Index>
  428 + <ParameterKey>bepi_sixp_ploerr(2)</ParameterKey>
  429 + </Element>
  430 + <Element>
  431 + <Name>Channel P4 - ~2.27 MeV</Name>
  432 + <Index>4</Index>
  433 + <ParameterKey>bepi_sixp_ploerr(3)</ParameterKey>
  434 + </Element>
  435 + <Element>
  436 + <Name>Channel P5 - ~3.94 MeV</Name>
  437 + <Index>5</Index>
  438 + <ParameterKey>bepi_sixp_ploerr(4)</ParameterKey>
  439 + </Element>
  440 + <Element>
  441 + <Name>Channel P6 - ~8.02 MeV</Name>
  442 + <Index>6</Index>
  443 + <ParameterKey>bepi_sixp_ploerr(5)</ParameterKey>
  444 + </Element>
  445 + <Element>
  446 + <Name>Channel P7 - ~14.4 MeV</Name>
  447 + <Index>7</Index>
  448 + <ParameterKey>bepi_sixp_ploerr(6)</ParameterKey>
  449 + </Element>
  450 + <Element>
  451 + <Name>Channel P8 - ~25.2 MeV</Name>
  452 + <Index>8</Index>
  453 + <ParameterKey>bepi_sixp_ploerr(7)</ParameterKey>
  454 + </Element>
  455 + <Element>
  456 + <Name>Channel P9 - ~49.8 MeV</Name>
  457 + <Index>9</Index>
  458 + <ParameterKey>bepi_sixp_ploerr(8)</ParameterKey>
  459 + </Element>
  460 + </Structure>
  461 + <Particle>
  462 + <ParticleType>Proton</ParticleType>
  463 + <ParticleQuantity>NumberFlux</ParticleQuantity>
  464 + </Particle>
  465 + </Parameter>
  466 + <Parameter>
  467 + <Name>electron flux error @@side@@</Name>
  468 + <ParameterKey>bepi_sixp_eerr</ParameterKey>
  469 + <Units>1/(cm^2 sr s MeV)</Units>
  470 + <RenderingHints>
  471 + <DisplayType>TimeSeries</DisplayType>
  472 + </RenderingHints>
  473 + <Structure>
  474 + <Size>7</Size>
  475 + <Element>
  476 + <Name>Channel E1 - ~0.07 MeV</Name>
  477 + <Index>1</Index>
  478 + <ParameterKey>bepi_sixp_eerr(0)</ParameterKey>
  479 + </Element>
  480 + <Element>
  481 + <Name>Channel E2 - ~0.10 MeV</Name>
  482 + <Index>2</Index>
  483 + <ParameterKey>bepi_sixp_eerr(1)</ParameterKey>
  484 + </Element>
  485 + <Element>
  486 + <Name>Channel E3 - ~0.17 MeV</Name>
  487 + <Index>3</Index>
  488 + <ParameterKey>bepi_sixp_eerr(2)</ParameterKey>
  489 + </Element>
  490 + <Element>
  491 + <Name>Channel E4 - ~0.27 MeV</Name>
  492 + <Index>4</Index>
  493 + <ParameterKey>bepi_sixp_eerr(3)</ParameterKey>
  494 + </Element>
  495 + <Element>
  496 + <Name>Channel E5 - ~0.92 MeV</Name>
  497 + <Index>5</Index>
  498 + <ParameterKey>bepi_sixp_eerr(4)</ParameterKey>
  499 + </Element>
  500 + <Element>
  501 + <Name>Channel E6 - ~2.17 MeV</Name>
  502 + <Index>6</Index>
  503 + <ParameterKey>bepi_sixp_eerr(5)</ParameterKey>
  504 + </Element>
  505 + <Element>
  506 + <Name>Channel E7 - >6.46 MeV</Name>
  507 + <Index>7</Index>
  508 + <ParameterKey>bepi_sixp_eerr(6)</ParameterKey>
  509 + </Element>
  510 + </Structure>
  511 + <Particle>
  512 + <ParticleType>Electron</ParticleType>
  513 + <ParticleQuantity>NumberFlux</ParticleQuantity>
  514 + </Particle>
  515 + </Parameter>
  516 + <Parameter>
  517 + <Name>electron flux upper error @@side@@</Name>
  518 + <ParameterKey>bepi_sixp_euperr</ParameterKey>
  519 + <Units>1/(cm^2 sr s MeV)</Units>
  520 + <RenderingHints>
  521 + <DisplayType>TimeSeries</DisplayType>
  522 + </RenderingHints>
  523 + <Structure>
  524 + <Size>7</Size>
  525 + <Element>
  526 + <Name>Channel E1 - ~0.07 MeV</Name>
  527 + <Index>1</Index>
  528 + <ParameterKey>bepi_sixp_euperr(0)</ParameterKey>
  529 + </Element>
  530 + <Element>
  531 + <Name>Channel E2 - ~0.10 MeV</Name>
  532 + <Index>2</Index>
  533 + <ParameterKey>bepi_sixp_euperr(1)</ParameterKey>
  534 + </Element>
  535 + <Element>
  536 + <Name>Channel E3 - ~0.17 MeV</Name>
  537 + <Index>3</Index>
  538 + <ParameterKey>bepi_sixp_euperr(2)</ParameterKey>
  539 + </Element>
  540 + <Element>
  541 + <Name>Channel E4 - ~0.27 MeV</Name>
  542 + <Index>4</Index>
  543 + <ParameterKey>bepi_sixp_euperr(3)</ParameterKey>
  544 + </Element>
  545 + <Element>
  546 + <Name>Channel E5 - ~0.92 MeV</Name>
  547 + <Index>5</Index>
  548 + <ParameterKey>bepi_sixp_euperr(4)</ParameterKey>
  549 + </Element>
  550 + <Element>
  551 + <Name>Channel E6 - ~2.17 MeV</Name>
  552 + <Index>6</Index>
  553 + <ParameterKey>bepi_sixp_euperr(5)</ParameterKey>
  554 + </Element>
  555 + <Element>
  556 + <Name>Channel E7 - >6.46 MeV</Name>
  557 + <Index>7</Index>
  558 + <ParameterKey>bepi_sixp_euperr(6)</ParameterKey>
  559 + </Element>
  560 + </Structure>
  561 + <Particle>
  562 + <ParticleType>Electron</ParticleType>
  563 + <ParticleQuantity>NumberFlux</ParticleQuantity>
  564 + </Particle>
  565 + </Parameter>
  566 + <Parameter>
  567 + <Name>electron flux lower error @@side@@</Name>
  568 + <ParameterKey>bepi_sixp_eloerr</ParameterKey>
  569 + <Units>1/(cm^2 sr s MeV)</Units>
  570 + <RenderingHints>
  571 + <DisplayType>TimeSeries</DisplayType>
  572 + </RenderingHints>
  573 + <Structure>
  574 + <Size>7</Size>
  575 + <Element>
  576 + <Name>Channel E1 - ~0.07 MeV</Name>
  577 + <Index>1</Index>
  578 + <ParameterKey>bepi_sixp_eloerr(0)</ParameterKey>
  579 + </Element>
  580 + <Element>
  581 + <Name>Channel E2 - ~0.10 MeV</Name>
  582 + <Index>2</Index>
  583 + <ParameterKey>bepi_sixp_eloerr(1)</ParameterKey>
  584 + </Element>
  585 + <Element>
  586 + <Name>Channel E3 - ~0.17 MeV</Name>
  587 + <Index>3</Index>
  588 + <ParameterKey>bepi_sixp_eloerr(2)</ParameterKey>
  589 + </Element>
  590 + <Element>
  591 + <Name>Channel E4 - ~0.27 MeV</Name>
  592 + <Index>4</Index>
  593 + <ParameterKey>bepi_sixp_eloerr(3)</ParameterKey>
  594 + </Element>
  595 + <Element>
  596 + <Name>Channel E5 - ~0.92 MeV</Name>
  597 + <Index>5</Index>
  598 + <ParameterKey>bepi_sixp_eloerr(4)</ParameterKey>
  599 + </Element>
  600 + <Element>
  601 + <Name>Channel E6 - ~2.17 MeV</Name>
  602 + <Index>6</Index>
  603 + <ParameterKey>bepi_sixp_eloerr(5)</ParameterKey>
  604 + </Element>
  605 + <Element>
  606 + <Name>Channel E7 - >6.46 MeV</Name>
  607 + <Index>7</Index>
  608 + <ParameterKey>bepi_sixp_eloerr(6)</ParameterKey>
  609 + </Element>
  610 + </Structure>
  611 + <Particle>
  612 + <ParticleType>Electron</ParticleType>
  613 + <ParticleQuantity>NumberFlux</ParticleQuantity>
  614 + </Particle>
  615 + </Parameter>
  616 + <Parameter>
  617 + <Name>electron flux error as seen by proton channels @@side@@</Name>
  618 + <ParameterKey>bepi_sixp_peerr</ParameterKey>
  619 + <Units>1/(cm^2 sr s MeV)</Units>
  620 + <RenderingHints>
  621 + <DisplayType>TimeSeries</DisplayType>
  622 + </RenderingHints>
  623 + <Structure>
  624 + <Size>3</Size>
  625 + <Element>
  626 + <Name>Channel PE1 - ~0.46 MeV</Name>
  627 + <Index>1</Index>
  628 + <ParameterKey>bepi_sixp_peerr(0)</ParameterKey>
  629 + </Element>
  630 + <Element>
  631 + <Name>Channel PE2 - ~0.84 MeV</Name>
  632 + <Index>2</Index>
  633 + <ParameterKey>bepi_sixp_peerr(1)</ParameterKey>
  634 + </Element>
  635 + <Element>
  636 + <Name>Channel PE3 - ~2.3 MeV</Name>
  637 + <Index>3</Index>
  638 + <ParameterKey>bepi_sixp_peerr(2)</ParameterKey>
  639 + </Element>
  640 + </Structure>
  641 + <Particle>
  642 + <ParticleType>Electron</ParticleType>
  643 + <ParticleQuantity>NumberFlux</ParticleQuantity>
  644 + </Particle>
  645 + </Parameter>
  646 + <Parameter>
  647 + <Name>electron flux upper error as seen by proton channels @@side@@</Name>
  648 + <ParameterKey>bepi_sixp_peuperr</ParameterKey>
  649 + <Units>1/(cm^2 sr s MeV)</Units>
  650 + <RenderingHints>
  651 + <DisplayType>TimeSeries</DisplayType>
  652 + </RenderingHints>
  653 + <Structure>
  654 + <Size>3</Size>
  655 + <Element>
  656 + <Name>Channel PE1 - ~0.46 MeV</Name>
  657 + <Index>1</Index>
  658 + <ParameterKey>bepi_sixp_peuperr(0)</ParameterKey>
  659 + </Element>
  660 + <Element>
  661 + <Name>Channel PE2 - ~0.84 MeV</Name>
  662 + <Index>2</Index>
  663 + <ParameterKey>bepi_sixp_peuperr(1)</ParameterKey>
  664 + </Element>
  665 + <Element>
  666 + <Name>Channel PE3 - ~2.3 MeV</Name>
  667 + <Index>3</Index>
  668 + <ParameterKey>bepi_sixp_peuperr(2)</ParameterKey>
  669 + </Element>
  670 + </Structure>
  671 + <Particle>
  672 + <ParticleType>Electron</ParticleType>
  673 + <ParticleQuantity>NumberFlux</ParticleQuantity>
  674 + </Particle>
  675 + </Parameter>
  676 + <Parameter>
  677 + <Name>electron flux lower error as seen by proton channels @@side@@</Name>
  678 + <ParameterKey>bepi_sixp_peloerr</ParameterKey>
  679 + <Units>1/(cm^2 sr s MeV)</Units>
  680 + <RenderingHints>
  681 + <DisplayType>TimeSeries</DisplayType>
  682 + </RenderingHints>
  683 + <Structure>
  684 + <Size>3</Size>
  685 + <Element>
  686 + <Name>Channel PE1 - ~0.46 MeV</Name>
  687 + <Index>1</Index>
  688 + <ParameterKey>bepi_sixp_peloerr(0)</ParameterKey>
  689 + </Element>
  690 + <Element>
  691 + <Name>Channel PE2 - ~0.84 MeV</Name>
  692 + <Index>2</Index>
  693 + <ParameterKey>bepi_sixp_peloerr(1)</ParameterKey>
  694 + </Element>
  695 + <Element>
  696 + <Name>Channel PE3 - ~2.3 MeV</Name>
  697 + <Index>3</Index>
  698 + <ParameterKey>bepi_sixp_peloerr(2)</ParameterKey>
  699 + </Element>
  700 + </Structure>
  701 + <Particle>
  702 + <ParticleType>Electron</ParticleType>
  703 + <ParticleQuantity>NumberFlux</ParticleQuantity>
  704 + </Particle>
  705 + </Parameter>
  706 + </NumericalData>
  707 +</Spase>
... ...
NumericalData/CDPP-AMDA/SOHO/ERNE/soho-erne-hed.xml
  Diff comments   View file @8e12a55
... ... @@ -7,13 +7,13 @@
7 7 <ResourceName>HED</ResourceName>
8 8 <AlternateName>HED detector</AlternateName>
9 9 <AlternateName>High Energy Detector</AlternateName>
10   - <ReleaseDate>2024-09-25T12:06:45Z</ReleaseDate>
  10 + <ReleaseDate>2024-05-13T02:42:56Z</ReleaseDate>
11 11 <Description>High Energy Detector consist of 7 detector layers and an anticoincidence
12 12 (AC) shield. First 4 layers are position sensitive silicon strip detectors
13 13 (S1x, S1y, S2x, S2y), they are followed by an other silicon detector (D1),
14 14 a CsI scintillator (D2) and a BGO-scintillator (D3).</Description>
15 15 <Contact>
16   - <PersonID>spase://CNES/Person/CDPP-AMDA/Rami.Vainio</PersonID>
  16 + <PersonID>spase://SMWG/Person/Rami.Vainio</PersonID>
17 17 <Role>DataProducer</Role>
18 18 </Contact>
19 19 <Contact>
... ... @@ -61,7 +61,7 @@ a CsI scintillator (D2) and a BGO-scintillator (D3).&lt;/Description&gt;
61 61 <TemporalDescription>
62 62 <TimeSpan>
63 63 <StartDate>1996-05-07T17:19:56Z</StartDate>
64   - <StopDate>2024-09-22T23:59:32Z</StopDate>
  64 + <StopDate>2024-05-07T23:59:54Z</StopDate>
65 65 </TimeSpan>
66 66 <Cadence>PT1M</Cadence>
67 67 </TemporalDescription>
... ...
NumericalData/CDPP-AMDA/SOHO/ERNE/soho-erne-led.xml
  Diff comments   View file @8e12a55
... ... @@ -7,12 +7,12 @@
7 7 <ResourceName>LED</ResourceName>
8 8 <AlternateName>LED detector</AlternateName>
9 9 <AlternateName>Low Energy Detector</AlternateName>
10   - <ReleaseDate>2024-01-25T12:37:38Z</ReleaseDate>
  10 + <ReleaseDate>2024-01-25T11:37:38Z</ReleaseDate>
11 11 <Description>Low Energy Detector is a two-layer semiconductor (silicon) detector, with
12 12 an anticoincidence (AC) shield at the bottom. The upper layer consist of 7
13 13 segments (D11-D17). The common lower layer is called D2.</Description>
14 14 <Contact>
15   - <PersonID>spase://CNES/Person/CDPP-AMDA/Rami.Vainio</PersonID>
  15 + <PersonID>spase://SMWG/Person/Rami.Vainio</PersonID>
16 16 <Role>DataProducer</Role>
17 17 </Contact>
18 18 <Contact>
... ...
Person/CDPP-AMDA/Christian.Palmroos.xml 0 → 100644
  Diff comments   View file @8e12a55
... ... @@ -0,0 +1,10 @@
  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-2.4.1.xsd">
  3 + <Version>2.4.1</Version>
  4 + <Person>
  5 + <ResourceID>spase://CNES/Person/CDPP-AMDA/Christian.Palmroos</ResourceID>
  6 + <ReleaseDate>2024-10-25T17:35:45Z</ReleaseDate>
  7 + <PersonName>Dr. Christian Palmroos</PersonName>
  8 + <OrganizationName>Department of Physics, University of Helsinki, Finland</OrganizationName>
  9 + </Person>
  10 +</Spase>
... ...
Person/CDPP-AMDA/Emilia.Kilpua.xml 0 → 100644
  Diff comments   View file @8e12a55
... ... @@ -0,0 +1,10 @@
  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-2.4.1.xsd">
  3 + <Version>2.4.1</Version>
  4 + <Person>
  5 + <ResourceID>spase://CNES/Person/CDPP-AMDA/Emilia.Kilpua</ResourceID>
  6 + <ReleaseDate>2024-10-25T17:35:45Z</ReleaseDate>
  7 + <PersonName>Dr. Emilia Kilpua</PersonName>
  8 + <OrganizationName>Department of Physics, University of Helsinki, Finland</OrganizationName>
  9 + </Person>
  10 +</Spase>
... ...
Person/CDPP-AMDA/Jan.Gieseler.xml 0 → 100644
  Diff comments   View file @8e12a55
... ... @@ -0,0 +1,10 @@
  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-2.4.1.xsd">
  3 + <Version>2.4.1</Version>
  4 + <Person>
  5 + <ResourceID>spase://CNES/Person/CDPP-AMDA/Jan.Gieseler</ResourceID>
  6 + <ReleaseDate>2024-10-25T17:35:45Z</ReleaseDate>
  7 + <PersonName>Dr. Jan Gieseler</PersonName>
  8 + <OrganizationName>Department of Physics, University of Helsinki, Finland</OrganizationName>
  9 + </Person>
  10 +</Spase>
... ...
Person/CDPP-AMDA/Philipp.Oleynik.xml 0 → 100644
  Diff comments   View file @8e12a55
... ... @@ -0,0 +1,10 @@
  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-2.4.1.xsd">
  3 + <Version>2.4.1</Version>
  4 + <Person>
  5 + <ResourceID>spase://CNES/Person/CDPP-AMDA/Philipp.Oleynik</ResourceID>
  6 + <ReleaseDate>2024-10-25T17:35:45Z</ReleaseDate>
  7 + <PersonName>Dr. Philipp Oleynik</PersonName>
  8 + <OrganizationName>Department of Physics, University of Helsinki, Finland</OrganizationName>
  9 + </Person>
  10 +</Spase>
... ...
Person/CDPP-AMDA/Rami.Vainio.xml deleted
View file @a634885
... ... @@ -1,10 +0,0 @@
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://www.spase-group.org/data/schema/spase-2.4.1.xsd">
3   - <Version>2.4.1</Version>
4   - <Person>
5   - <ResourceID>spase://CNES/Person/CDPP-AMDA/Rami.Vainio</ResourceID>
6   - <PersonName>Rami Vainio</PersonName>
7   - <OrganizationName>University of Turku</OrganizationName>
8   - <Email>rami.vainio@utu.fi</Email>
9   - </Person>
10   -</Spase>