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Instrument/AMDA/STEREO-A/IMPACT/MAG.xml
| @@ -4,7 +4,7 @@ | @@ -4,7 +4,7 @@ | ||
| 4 | <Instrument> | 4 | <Instrument> |
| 5 | <ResourceID>spase://CDPP/Instrument/AMDA/STEREO-A/IMPACT/MAG</ResourceID> | 5 | <ResourceID>spase://CDPP/Instrument/AMDA/STEREO-A/IMPACT/MAG</ResourceID> |
| 6 | <ResourceHeader> | 6 | <ResourceHeader> |
| 7 | - <ResourceName>STEREO-A IMPACT/MAG</ResourceName> | 7 | + <ResourceName>MAG</ResourceName> |
| 8 | <AlternateName>STEREO-A IMPACT Magnetometer</AlternateName> | 8 | <AlternateName>STEREO-A IMPACT Magnetometer</AlternateName> |
| 9 | <ReleaseDate>2009-05-20T21:10:10Z</ReleaseDate> | 9 | <ReleaseDate>2009-05-20T21:10:10Z</ReleaseDate> |
| 10 | <Description>The magnetometer system is a simplified version of the magnetometers flown on Mars Global Surveyor and Lunar Prospector. It is a tri-axial flux gate design that will be mounted on the STEREO ~4m boom just inboard of the SWEA and STE instruments. The flux gate sensors use a ring core geometry, with magnetic cores consisting of molybdenum alloy. The units are compact, low power, and ultra-stable. To optimize sensitivity at the low field values to be found in interplanetary space, the magnetometer dynamic range is divided into 8 ranges that are automatically switched whenever the field being measured exceeds a predetermined level. The maximum range is sufficiently large to allow IMPACT MAG magnetic field measurements during the commissioning phase Earth orbits.</Description> | 10 | <Description>The magnetometer system is a simplified version of the magnetometers flown on Mars Global Surveyor and Lunar Prospector. It is a tri-axial flux gate design that will be mounted on the STEREO ~4m boom just inboard of the SWEA and STE instruments. The flux gate sensors use a ring core geometry, with magnetic cores consisting of molybdenum alloy. The units are compact, low power, and ultra-stable. To optimize sensitivity at the low field values to be found in interplanetary space, the magnetometer dynamic range is divided into 8 ranges that are automatically switched whenever the field being measured exceeds a predetermined level. The maximum range is sufficiently large to allow IMPACT MAG magnetic field measurements during the commissioning phase Earth orbits.</Description> |
Instrument/AMDA/STEREO-B/IMPACT/MAG.xml
| @@ -4,7 +4,7 @@ | @@ -4,7 +4,7 @@ | ||
| 4 | <Instrument> | 4 | <Instrument> |
| 5 | <ResourceID>spase://CDPP/Instrument/AMDA/STEREO-B/IMPACT/MAG</ResourceID> | 5 | <ResourceID>spase://CDPP/Instrument/AMDA/STEREO-B/IMPACT/MAG</ResourceID> |
| 6 | <ResourceHeader> | 6 | <ResourceHeader> |
| 7 | - <ResourceName>STEREO-B IMPACT/MAG</ResourceName> | 7 | + <ResourceName>MAG</ResourceName> |
| 8 | <AlternateName>STEREO-B IMPACT Magnetometer</AlternateName> | 8 | <AlternateName>STEREO-B IMPACT Magnetometer</AlternateName> |
| 9 | <ReleaseDate>2009-05-20T21:10:12Z</ReleaseDate> | 9 | <ReleaseDate>2009-05-20T21:10:12Z</ReleaseDate> |
| 10 | <Description>The magnetometer system is a simplified version of the magnetometers flown on Mars Global Surveyor and Lunar Prospector. It is a tri-axial flux gate design that will be mounted on the STEREO ~4m boom just inboard of the SWEA and STE instruments. The flux gate sensors use a ring core geometry, with magnetic cores consisting of molybdenum alloy. The units are compact, low power, and ultra-stable. To optimize sensitivity at the low field values to be found in interplanetary space, the magnetometer dynamic range is divided into 8 ranges that are automatically switched whenever the field being measured exceeds a predetermined level. The maximum range is sufficiently large to allow IMPACT MAG magnetic field measurements during the commissioning phase Earth orbits.</Description> | 10 | <Description>The magnetometer system is a simplified version of the magnetometers flown on Mars Global Surveyor and Lunar Prospector. It is a tri-axial flux gate design that will be mounted on the STEREO ~4m boom just inboard of the SWEA and STE instruments. The flux gate sensors use a ring core geometry, with magnetic cores consisting of molybdenum alloy. The units are compact, low power, and ultra-stable. To optimize sensitivity at the low field values to be found in interplanetary space, the magnetometer dynamic range is divided into 8 ranges that are automatically switched whenever the field being measured exceeds a predetermined level. The maximum range is sufficiently large to allow IMPACT MAG magnetic field measurements during the commissioning phase Earth orbits.</Description> |
NumericalData/AMDA/Cassini/MAG/Saturn_Orbit/cass-mag-orb1.xml
| @@ -32,7 +32,7 @@ | @@ -32,7 +32,7 @@ | ||
| 32 | <TemporalDescription> | 32 | <TemporalDescription> |
| 33 | <TimeSpan> | 33 | <TimeSpan> |
| 34 | <StartDate>2004-05-14T18:40:51Z</StartDate> | 34 | <StartDate>2004-05-14T18:40:51Z</StartDate> |
| 35 | - <StopDate>2011-09-22T19:58:59Z</StopDate> | 35 | + <StopDate>2011-10-10T14:40:59Z</StopDate> |
| 36 | </TimeSpan> | 36 | </TimeSpan> |
| 37 | <Cadence>PT1S</Cadence> | 37 | <Cadence>PT1S</Cadence> |
| 38 | </TemporalDescription> | 38 | </TemporalDescription> |
NumericalData/AMDA/IMP-8/MAG/imp-mag-k0.xml
| @@ -42,7 +42,7 @@ access to the data</Description> | @@ -42,7 +42,7 @@ access to the data</Description> | ||
| 42 | <TemporalDescription> | 42 | <TemporalDescription> |
| 43 | <TimeSpan> | 43 | <TimeSpan> |
| 44 | <StartDate>1973-10-29T23:59:53Z</StartDate> | 44 | <StartDate>1973-10-29T23:59:53Z</StartDate> |
| 45 | - <StopDate>1977-12-31T23:59:38Z</StopDate> | 45 | + <StopDate>1978-12-31T23:59:38Z</StopDate> |
| 46 | <Note>Instrument stopped working on 2000-06-10.</Note> | 46 | <Note>Instrument stopped working on 2000-06-10.</Note> |
| 47 | </TimeSpan> | 47 | </TimeSpan> |
| 48 | <Cadence>PT15.36S</Cadence> | 48 | <Cadence>PT15.36S</Cadence> |
NumericalData/AMDA/MGS/MAG/mgs-mag-mso.xml
| @@ -4,7 +4,7 @@ | @@ -4,7 +4,7 @@ | ||
| 4 | <NumericalData> | 4 | <NumericalData> |
| 5 | <ResourceID>spase://VHO/NumericalData/MGS/MAG/mgs-mag-mso</ResourceID> | 5 | <ResourceID>spase://VHO/NumericalData/MGS/MAG/mgs-mag-mso</ResourceID> |
| 6 | <ResourceHeader> | 6 | <ResourceHeader> |
| 7 | - <ResourceName>mars orbit</ResourceName> | 7 | + <ResourceName>orbit mars</ResourceName> |
| 8 | <ReleaseDate>2015-10-15T15:39:00Z</ReleaseDate> | 8 | <ReleaseDate>2015-10-15T15:39:00Z</ReleaseDate> |
| 9 | <Description/> | 9 | <Description/> |
| 10 | <Contact> | 10 | <Contact> |
NumericalData/AMDA/STEREO-A/MAG/sta-mag-mag.xml
| @@ -4,7 +4,7 @@ | @@ -4,7 +4,7 @@ | ||
| 4 | <NumericalData> | 4 | <NumericalData> |
| 5 | <ResourceID>spase://CDPP/NumericalData/AMDA/STEREO-A/MAG/sta-mag-mag</ResourceID> | 5 | <ResourceID>spase://CDPP/NumericalData/AMDA/STEREO-A/MAG/sta-mag-mag</ResourceID> |
| 6 | <ResourceHeader> | 6 | <ResourceHeader> |
| 7 | - <ResourceName>Stereo A Magnetic Field Data</ResourceName> | 7 | + <ResourceName>1 sec</ResourceName> |
| 8 | <ReleaseDate>2015-10-14T11:53:29Z</ReleaseDate> | 8 | <ReleaseDate>2015-10-14T11:53:29Z</ReleaseDate> |
| 9 | <Description/> | 9 | <Description/> |
| 10 | <Contact> | 10 | <Contact> |
| @@ -29,7 +29,7 @@ | @@ -29,7 +29,7 @@ | ||
| 29 | <StartDate>2006-11-07T00:00:00Z</StartDate> | 29 | <StartDate>2006-11-07T00:00:00Z</StartDate> |
| 30 | <StopDate>2013-02-27T23:59:59Z</StopDate> | 30 | <StopDate>2013-02-27T23:59:59Z</StopDate> |
| 31 | </TimeSpan> | 31 | </TimeSpan> |
| 32 | - <Cadence>PT01S</Cadence> | 32 | + <Cadence>PT1S</Cadence> |
| 33 | </TemporalDescription> | 33 | </TemporalDescription> |
| 34 | <Parameter> | 34 | <Parameter> |
| 35 | <Name>b_rtn</Name> | 35 | <Name>b_rtn</Name> |
| @@ -47,17 +47,17 @@ | @@ -47,17 +47,17 @@ | ||
| 47 | <Structure> | 47 | <Structure> |
| 48 | <Size>3</Size> | 48 | <Size>3</Size> |
| 49 | <Element> | 49 | <Element> |
| 50 | - <Name>Radial Component of vector magnetic field</Name> | 50 | + <Name>br</Name> |
| 51 | <Index>0</Index> | 51 | <Index>0</Index> |
| 52 | <ParameterKey>sta_b(0)</ParameterKey> | 52 | <ParameterKey>sta_b(0)</ParameterKey> |
| 53 | </Element> | 53 | </Element> |
| 54 | <Element> | 54 | <Element> |
| 55 | - <Name>Transverse Component of vector magnetic field</Name> | 55 | + <Name>bt</Name> |
| 56 | <Index>1</Index> | 56 | <Index>1</Index> |
| 57 | <ParameterKey>sta_b(1)</ParameterKey> | 57 | <ParameterKey>sta_b(1)</ParameterKey> |
| 58 | </Element> | 58 | </Element> |
| 59 | <Element> | 59 | <Element> |
| 60 | - <Name>Normal Component of vector magnetic field</Name> | 60 | + <Name>bn</Name> |
| 61 | <Index>2</Index> | 61 | <Index>2</Index> |
| 62 | <ParameterKey>sta_b(2)</ParameterKey> | 62 | <ParameterKey>sta_b(2)</ParameterKey> |
| 63 | </Element> | 63 | </Element> |
| @@ -68,7 +68,7 @@ | @@ -68,7 +68,7 @@ | ||
| 68 | </Field> | 68 | </Field> |
| 69 | </Parameter> | 69 | </Parameter> |
| 70 | <Parameter> | 70 | <Parameter> |
| 71 | - <Name>Field Magnitude</Name> | 71 | + <Name>|b|</Name> |
| 72 | <ParameterKey>sta_btot</ParameterKey> | 72 | <ParameterKey>sta_btot</ParameterKey> |
| 73 | <Description>Scalar magnitude of the magnetic field in nT</Description> | 73 | <Description>Scalar magnitude of the magnetic field in nT</Description> |
| 74 | <Ucd>phys.magField</Ucd> | 74 | <Ucd>phys.magField</Ucd> |
NumericalData/AMDA/STEREO-B/MAG/stb-mag-mag.xml
| @@ -4,7 +4,7 @@ | @@ -4,7 +4,7 @@ | ||
| 4 | <NumericalData> | 4 | <NumericalData> |
| 5 | <ResourceID>spase://CDPP/NumericalData/AMDA/STEREO-B/IMPACT/MAG/stb-mag-mag</ResourceID> | 5 | <ResourceID>spase://CDPP/NumericalData/AMDA/STEREO-B/IMPACT/MAG/stb-mag-mag</ResourceID> |
| 6 | <ResourceHeader> | 6 | <ResourceHeader> |
| 7 | - <ResourceName>Stereo B Magnetic Field Data</ResourceName> | 7 | + <ResourceName>1 sec</ResourceName> |
| 8 | <ReleaseDate>2015-10-14T14:39:00Z</ReleaseDate> | 8 | <ReleaseDate>2015-10-14T14:39:00Z</ReleaseDate> |
| 9 | <Description/> | 9 | <Description/> |
| 10 | <Contact> | 10 | <Contact> |
| @@ -29,7 +29,7 @@ | @@ -29,7 +29,7 @@ | ||
| 29 | <StartDate>2006-11-07T00:00:00Z</StartDate> | 29 | <StartDate>2006-11-07T00:00:00Z</StartDate> |
| 30 | <StopDate>2013-02-27T23:59:59Z</StopDate> | 30 | <StopDate>2013-02-27T23:59:59Z</StopDate> |
| 31 | </TimeSpan> | 31 | </TimeSpan> |
| 32 | - <Cadence>PT01S</Cadence> | 32 | + <Cadence>PT1S</Cadence> |
| 33 | </TemporalDescription> | 33 | </TemporalDescription> |
| 34 | <Parameter> | 34 | <Parameter> |
| 35 | <Name>b_rtn</Name> | 35 | <Name>b_rtn</Name> |
| @@ -47,17 +47,17 @@ | @@ -47,17 +47,17 @@ | ||
| 47 | <Structure> | 47 | <Structure> |
| 48 | <Size>3</Size> | 48 | <Size>3</Size> |
| 49 | <Element> | 49 | <Element> |
| 50 | - <Name>Radial Component of vector magnetic field</Name> | 50 | + <Name>br</Name> |
| 51 | <Index>0</Index> | 51 | <Index>0</Index> |
| 52 | <ParameterKey>stb_b(0)</ParameterKey> | 52 | <ParameterKey>stb_b(0)</ParameterKey> |
| 53 | </Element> | 53 | </Element> |
| 54 | <Element> | 54 | <Element> |
| 55 | - <Name>Transverse Component of vector magnetic field</Name> | 55 | + <Name>bt</Name> |
| 56 | <Index>1</Index> | 56 | <Index>1</Index> |
| 57 | <ParameterKey>stb_b(1)</ParameterKey> | 57 | <ParameterKey>stb_b(1)</ParameterKey> |
| 58 | </Element> | 58 | </Element> |
| 59 | <Element> | 59 | <Element> |
| 60 | - <Name>Normal Component of vector magnetic field</Name> | 60 | + <Name>bn</Name> |
| 61 | <Index>2</Index> | 61 | <Index>2</Index> |
| 62 | <ParameterKey>stb_b(2)</ParameterKey> | 62 | <ParameterKey>stb_b(2)</ParameterKey> |
| 63 | </Element> | 63 | </Element> |
| @@ -68,7 +68,7 @@ | @@ -68,7 +68,7 @@ | ||
| 68 | </Field> | 68 | </Field> |
| 69 | </Parameter> | 69 | </Parameter> |
| 70 | <Parameter> | 70 | <Parameter> |
| 71 | - <Name>Field Magnitude</Name> | 71 | + <Name>|b|</Name> |
| 72 | <ParameterKey>stb_btot</ParameterKey> | 72 | <ParameterKey>stb_btot</ParameterKey> |
| 73 | <Description>Scalar magnitude of the magnetic field in nT</Description> | 73 | <Description>Scalar magnitude of the magnetic field in nT</Description> |
| 74 | <Ucd>phys.magField</Ucd> | 74 | <Ucd>phys.magField</Ucd> |