CDPP / CNES

Commit 122d1c49b55036b125440de4f00abc8245e9b4b2

Authored by Elena.Budnik
1 parent c3ba0931
Exists in master and in 12 other branches amdadev, aschulz, autocommit, bepi_master, bepi_update, branch_q, cleanup_registry, cleanup_registry_master, cleanup_registry_merged, juice_jdc, juno_jade, soar

work

Showing 4 changed files with 30 additions and 30 deletions   Show diff stats
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Instrument/AMDA/STEREO-A/IMPACT/SWEA.xml
  Diff comments   View file @122d1c4
... ... @@ -4,8 +4,8 @@
4 4 <Instrument>
5 5 <ResourceID>spase://CDPP/Instrument/AMDA/STEREO-A/IMPACT/SWEA</ResourceID>
6 6 <ResourceHeader>
7   - <ResourceName>STEREO-A IMPACT/SWEA</ResourceName>
8   - <AlternateName>STEREO-A IMPACT Solar Wind Plasma Electron Analyzer</AlternateName>
  7 + <ResourceName>SWEA</ResourceName>
  8 + <AlternateName>Solar Wind Plasma Electron Analyzer</AlternateName>
9 9 <ReleaseDate>2011-12-23T20:14:31Z</ReleaseDate>
10 10 <Description>
11 11 SWEA is designed to measure the distribution function of the solar wind core and halo electrons from below an eV to several keV, with high spectral and angular resolution over practically the full spherical range. This capability allows the distinction between these components in detail during both undisturbed periods and the passage of CME generated disturbances, when the interplanetary field rotates far out of the ecliptic plane. SWEA consists of a hemispherical top-hat electrostatic analyzer (ESA) that provides a 360 deg. field of view in a plane, combined with electrostatic deflectors to provide nearly 4 pi coverage when SWEA is mounted at the end of the STEREO boom. The inner plate radius is 3.75 cm and the plate separation is 0.28 cm. The resulting energy resolution dE/E is 18%, and the geometric factor is 0.01 cm2 ster E (eV). SWEA compensates for the effects of spacecraft potential on the lowest energy particles by having an outer hemisphere that can be biased according to the plasma density measured by the PLASTIC solar wind ion instrument. Detailed descriptions of the IMPACT SWEA can be found in Space Science Reviews 136, 227-239 (2008).
... ...
Instrument/AMDA/STEREO-B/IMPACT/SWEA.xml
  Diff comments   View file @122d1c4
... ... @@ -4,8 +4,8 @@
4 4 <Instrument>
5 5 <ResourceID>spase://CDPP/Instrument/AMDA/STEREO-B/IMPACT/SWEA</ResourceID>
6 6 <ResourceHeader>
7   - <ResourceName>STEREO-B IMPACT/SWEA</ResourceName>
8   - <AlternateName>STEREO-B IMPACT Solar Wind Plasma Electron Analyzer</AlternateName>
  7 + <ResourceName>SWEA</ResourceName>
  8 + <AlternateName>Solar Wind Plasma Electron Analyzer</AlternateName>
9 9 <ReleaseDate>2011-12-21T00:00:00Z</ReleaseDate>
10 10 <Description>
11 11 SWEA is designed to measure the distribution function of the solar wind core and halo electrons from below an eV to several keV, with high spectral and angular resolution over practically the full spherical range. This capability allows the distinction between these components in detail during both undisturbed periods and the passage of CME generated disturbances, when the interplanetary field rotates far out of the ecliptic plane. SWEA consists of a hemispherical top-hat electrostatic analyzer (ESA) that provides a 360 deg. field of view in a plane, combined with electrostatic deflectors to provide nearly 4 pi coverage when SWEA is mounted at the end of the STEREO boom. The inner plate radius is 3.75 cm and the plate separation is 0.28 cm. The resulting energy resolution dE/E is 18%, and the geometric factor is 0.01 cm2 ster E (eV). SWEA compensates for the effects of spacecraft potential on the lowest energy particles by having an outer hemisphere that can be biased according to the plasma density measured by the PLASTIC solar wind ion instrument. Detailed descriptions of the IMPACT SWEA can be found in Space Science Reviews 136, 227-239 (2008).
... ...
NumericalData/AMDA/STEREO-A/SWEA/sta-swea-mom.xml
  Diff comments   View file @122d1c4
... ... @@ -4,7 +4,7 @@
4 4 <NumericalData>
5 5 <ResourceID>spase://CDPP/NumericalData/AMDA/STEREO-A/IMPACT/SWEA/sta-swea-mom</ResourceID>
6 6 <ResourceHeader>
7   - <ResourceName>swea-moments E:45-2000eV</ResourceName>
  7 + <ResourceName>electron moments E:45-2000eV</ResourceName>
8 8 <ReleaseDate>2015-10-14T11:48:00Z</ReleaseDate>
9 9 <Description/>
10 10 <Contact>
... ... @@ -33,7 +33,7 @@
33 33 </TemporalDescription>
34 34 <ObservedRegion>Heliosphere.Remote1AU</ObservedRegion>
35 35 <Parameter>
36   - <Name>Ne</Name>
  36 + <Name>density</Name>
37 37 <ParameterKey>ne_part_sta</ParameterKey>
38 38 <Ucd>phys.density;phys.electron</Ucd>
39 39 <Units>cm-3</Units>
... ... @@ -46,7 +46,7 @@
46 46 </Particle>
47 47 </Parameter>
48 48 <Parameter>
49   - <Name>Te_b</Name>
  49 + <Name>t_b</Name>
50 50 <ParameterKey>te_part_sta</ParameterKey>
51 51 <Ucd>phys.temperature;phys.electron</Ucd>
52 52 <Units>eV</Units>
... ... @@ -56,17 +56,17 @@
56 56 <Structure>
57 57 <Size>3</Size>
58 58 <Element>
59   - <Name>Te_par</Name>
  59 + <Name>t_para</Name>
60 60 <Index>0</Index>
61 61 <ParameterKey>te_part_sta(0)</ParameterKey>
62 62 </Element>
63 63 <Element>
64   - <Name>Te_perp1</Name>
  64 + <Name>t_perp1</Name>
65 65 <Index>1</Index>
66 66 <ParameterKey>te_part_sta(1)</ParameterKey>
67 67 </Element>
68 68 <Element>
69   - <Name>Te_perp2</Name>
  69 + <Name>t_perp2</Name>
70 70 <Index>2</Index>
71 71 <ParameterKey>te_part_sta(2)</ParameterKey>
72 72 </Element>
... ... @@ -77,7 +77,7 @@
77 77 </Particle>
78 78 </Parameter>
79 79 <Parameter>
80   - <Name>Qe_rtn</Name>
  80 + <Name>Q_rtn</Name>
81 81 <ParameterKey>qe_part_sta</ParameterKey>
82 82 <Ucd>phys.heatflux;phys.electron</Ucd>
83 83 <Units>erg/sec/cm2</Units>
... ... @@ -91,17 +91,17 @@
91 91 <Structure>
92 92 <Size>3</Size>
93 93 <Element>
94   - <Name>Qe_R</Name>
  94 + <Name>q_r</Name>
95 95 <Index>0</Index>
96 96 <ParameterKey>qe_part_sta(0)</ParameterKey>
97 97 </Element>
98 98 <Element>
99   - <Name>Qe_T</Name>
  99 + <Name>q_t</Name>
100 100 <Index>1</Index>
101 101 <ParameterKey>qe_part_sta(1)</ParameterKey>
102 102 </Element>
103 103 <Element>
104   - <Name>Qe_N</Name>
  104 + <Name>q_n</Name>
105 105 <Index>2</Index>
106 106 <ParameterKey>qe_part_sta(2)</ParameterKey>
107 107 </Element>
... ... @@ -112,7 +112,7 @@
112 112 </Particle>
113 113 </Parameter>
114 114 <Parameter>
115   - <Name>Qe_b</Name>
  115 + <Name>Q_b</Name>
116 116 <ParameterKey>qe_b_sta</ParameterKey>
117 117 <Ucd>phys.heatflux;phys.electron</Ucd>
118 118 <Units>erg/sec/cm2</Units>
... ... @@ -126,12 +126,12 @@
126 126 <Structure>
127 127 <Size>2</Size>
128 128 <Element>
129   - <Name>Qe_par</Name>
  129 + <Name>q_para</Name>
130 130 <Index>0</Index>
131 131 <ParameterKey>qe_b_sta(0)</ParameterKey>
132 132 </Element>
133 133 <Element>
134   - <Name>Qe_perp</Name>
  134 + <Name>q_perp</Name>
135 135 <Index>1</Index>
136 136 <ParameterKey>qe_b_sta(1)</ParameterKey>
137 137 </Element>
... ...
NumericalData/AMDA/STEREO-B/SWEA/stb-swea-mom.xml
  Diff comments   View file @122d1c4
... ... @@ -4,7 +4,7 @@
4 4 <NumericalData>
5 5 <ResourceID>spase://CDPP/NumericalData/AMDA/STEREO-B/IMPACT/SWEA/stb-swea-mom</ResourceID>
6 6 <ResourceHeader>
7   - <ResourceName>swea-moments E:45-2000eV</ResourceName>
  7 + <ResourceName>electron moments E:45-2000eV</ResourceName>
8 8 <ReleaseDate>2015-10-14T14:42:00Z</ReleaseDate>
9 9 <Description/>
10 10 <Contact>
... ... @@ -33,7 +33,7 @@
33 33 </TemporalDescription>
34 34 <ObservedRegion>Heliosphere.Remote1AU</ObservedRegion>
35 35 <Parameter>
36   - <Name>Ne</Name>
  36 + <Name>density</Name>
37 37 <ParameterKey>ne_part_stb</ParameterKey>
38 38 <Ucd>phys.density;phys.electron</Ucd>
39 39 <Units>cm-3</Units>
... ... @@ -46,7 +46,7 @@
46 46 </Particle>
47 47 </Parameter>
48 48 <Parameter>
49   - <Name>Te_b</Name>
  49 + <Name>t_b</Name>
50 50 <ParameterKey>te_part_stb</ParameterKey>
51 51 <Ucd>phys.temperature;phys.electron</Ucd>
52 52 <Units>eV</Units>
... ... @@ -56,17 +56,17 @@
56 56 <Structure>
57 57 <Size>3</Size>
58 58 <Element>
59   - <Name>Te_par</Name>
  59 + <Name>t_para</Name>
60 60 <Index>0</Index>
61 61 <ParameterKey>te_part_stb(0)</ParameterKey>
62 62 </Element>
63 63 <Element>
64   - <Name>Te_perp1</Name>
  64 + <Name>t_perp1</Name>
65 65 <Index>1</Index>
66 66 <ParameterKey>te_part_stb(1)</ParameterKey>
67 67 </Element>
68 68 <Element>
69   - <Name>Te_perp2</Name>
  69 + <Name>t_perp2</Name>
70 70 <Index>2</Index>
71 71 <ParameterKey>te_part_stb(2)</ParameterKey>
72 72 </Element>
... ... @@ -77,7 +77,7 @@
77 77 </Particle>
78 78 </Parameter>
79 79 <Parameter>
80   - <Name>Qe_rtn</Name>
  80 + <Name>Q_rtn</Name>
81 81 <ParameterKey>qe_part_stb</ParameterKey>
82 82 <Ucd>phys.heatflux;phys.electron</Ucd>
83 83 <Units>erg/sec/cm2</Units>
... ... @@ -91,17 +91,17 @@
91 91 <Structure>
92 92 <Size>3</Size>
93 93 <Element>
94   - <Name>Qe_R</Name>
  94 + <Name>q_r</Name>
95 95 <Index>0</Index>
96 96 <ParameterKey>qe_part_stb(0)</ParameterKey>
97 97 </Element>
98 98 <Element>
99   - <Name>Qe_T</Name>
  99 + <Name>q_t</Name>
100 100 <Index>1</Index>
101 101 <ParameterKey>qe_part_stb(1)</ParameterKey>
102 102 </Element>
103 103 <Element>
104   - <Name>Qe_N</Name>
  104 + <Name>q_n</Name>
105 105 <Index>2</Index>
106 106 <ParameterKey>qe_part_stb(2)</ParameterKey>
107 107 </Element>
... ... @@ -112,7 +112,7 @@
112 112 </Particle>
113 113 </Parameter>
114 114 <Parameter>
115   - <Name>Qe_b</Name>
  115 + <Name>Q_b</Name>
116 116 <ParameterKey>qe_b_stb</ParameterKey>
117 117 <Ucd>phys.heatflux;phys.electron</Ucd>
118 118 <Units>erg/sec/cm2</Units>
... ... @@ -126,12 +126,12 @@
126 126 <Structure>
127 127 <Size>2</Size>
128 128 <Element>
129   - <Name>Qe_par</Name>
  129 + <Name>q_para</Name>
130 130 <Index>0</Index>
131 131 <ParameterKey>qe_b_stb(0)</ParameterKey>
132 132 </Element>
133 133 <Element>
134   - <Name>Qe_perp</Name>
  134 + <Name>q_perp</Name>
135 135 <Index>1</Index>
136 136 <ParameterKey>qe_b_stb(1)</ParameterKey>
137 137 </Element>
... ...