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PSP FIELDS Digital Fields Board (DFB) AC-coupled Searchcoil Magnetometer, SCM, Cross Spectra, e-component, f-component, High Gain, Sensor coordinates, Level 2 (L2), 0.873813 s Data

(2020). PSP FIELDS Digital Fields Board (DFB) AC-coupled Searchcoil Magnetometer, SCM, Cross Spectra, e-component, f-component, High Gain, Sensor coordinates, Level 2 (L2), 0.873813 s Data [Data set]. NASA Space Physics Data Facility. https://doi.org/10.48322/srne-rk07. Accessed on .

Note: Proper references, including those in BibTex or other formats, should include the "Accessed on date" as shown above to identify the version of the resource being cited in a given publication.

ResourceID
spase://NASA/NumericalData/ParkerSolarProbe/FIELDS/DFB/Level2/AC/CrossSpectra/SCM/E-F/LowFrequency/HighGain/PT0.873813S

Description

PSP FIELDS Digital Fields Board (DFB), XXX ⨯ YYY cross spectra data:

The DFB is the low frequency, less than 75 kHz, component of the FIELDS experiment on the Parker Solar Probe spacecraft, see reference [1] below. For a full description of the FIELDS experiment, see reference [2]. For a description of the DFB, see reference [3].

DFB AC cross spectra data for a pair of input channels consist of:

    1. Power spectral densities (auto spectra, e.g. FT₁ ⨯ FT₁*)
    1. Real and imaginary parts of the spectral cross term (FT₁ ⨯ FT₂*)
    1. Coherence
    1. Phase

where all as a function of frequency and time. The last two terms are describedcoherence and phase are defined in [3].

These cross spectra are averaged in both frequency and time as described in [3]. The cross spectra have either 56 or 96 bins (selectable) with the bin central frequencies reported in the metadata. The AC cross spectra are duty-cycled such that spectral averaging takes place over the first 1/8 of any given NYs (assuming a 1 NYs data cadence). Less data are averaged by 2^N for cadences faster than 1 NYs by 2^N. For cadences slower than 1 NYs, the first 1/8 of each NYs of data included are averaged together to form the reported data.

The Level 2 data products contained in this data file have been calibrated for:

    1. The Hanning window used in the spectral calculation
    1. DFB in-band gain
    1. DFB analog filter gain response
    1. DFB digital filter gain response
    1. The search coil preamplifier response, when applicable
    1. The bandwidth of each spectral bin

Note that compensation for the DFB digital filters will introduce a non-physical positively sloped power trend at high frequencies when the non-corrected signal is dominated by noise. This effect should be examined carefully when determining spectral slopes and features at the highest frequencies. Calibrations for the FIELDS preamplifiers have not been implemented as the preamplifier response is flat and equal to one through the DFB frequency range. Corrections for plasma sheath impedance gain and antenna effective length have not been applied to voltage sensor signals. These corrections will be applied in the Level 3 DFB data products. Therefore, all voltage sensor quantities when present in these Level 2 data products are expressed by using units of Volts squared per Hertz. Likewise, all magnetic field quantities when present in these Level 2 data product are expressed by using units of nanoTesla squared per Hertz. The units for phase are degrees.

The Level 2 voltage data products contained in this data file are expressed in sensor coordinates: e.g. dV12, dV34 for voltage measurements. For solar orbits 1 and 2, the search coil magnetometer cross spectra data are rotated into a non-intuitive coordinate system with components [d,e,f]. For solar orbits 3 and beyond, the magnetic field cross spectra data are expressed by using search coil magnetometer sensor coordinates with components [u,v,w].

To rotate from [d,e,f] coordinates to [u,v,w] search coil sensor coordinates, use the following matrix, written in IDL notation, and the following equation: spectra_uvw_vector = R ## spectra_def_vector.

R = [[ 0.46834856, -0.81336422 , 0.34509170]
[ -0.66921924, -0.071546954, 0.73961249]
[ -0.57688408, -0.57733845 , -0.57782790]]

For some orbits, sufficient spectral information exists in the auto spectra and cross spectra to determine wave ellipticity, planarity, and wave normal angles. One method for accomplishing this is presented in reference [4].

Time resolution of the DFB AC cross spectral data can vary by multiples of 2^N. During encounter (when PSP is within 0.25 AU of the Sun), cadence for the DFB AC cross spectra is typically 1 NYsecond [2]. Timestamps correspond to the center time of each window.

References:

    1. Fox, N.J., Velli, M.C., Bale, S.D. et al., Space Sci Rev (2016) 204:7. https://doi.org/10.1007/s1121401502116
    1. Bale, S.D., Goetz, K., Harvey, P.R. et al., Space Sci Rev (2016) 204:49. https://doi.org/10.1007/s1121401602445
    1. Malaspina, D.M., Ergun, R.E., Bolton, M. et al., JGR Space Physics (2016), 121, 5088-5096. https://doi.org/10.1002/2016JA022344
    1. Santolik, O., Parrot, M., Lefeuvre, F. Radio Science (2003), 38, 1010. https://doi.org/10.1029/2000RS002523

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Details

Version:2.4.0

NumericalData

ResourceID
spase://NASA/NumericalData/ParkerSolarProbe/FIELDS/DFB/Level2/AC/CrossSpectra/SCM/E-F/LowFrequency/HighGain/PT0.873813S
ResourceHeader
ResourceName
PSP FIELDS Digital Fields Board (DFB) AC-coupled Searchcoil Magnetometer, SCM, Cross Spectra, e-component, f-component, High Gain, Sensor coordinates, Level 2 (L2), 0.873813 s Data
DOI
https://doi.org/10.48322/srne-rk07
ReleaseDate
2022-05-25 12:34:56.789
RevisionHistory
RevisionEvent
ReleaseDate
2021-05-08 21:30:02
Note
PSP FIELDS: Initial SPASE XML resource description submission, metadata generated by LFB
RevisionEvent
ReleaseDate
2022-05-25 12:34:56.789
Note
PSP FIELDS: Updated to SPASE Version 2.4.0, FIELDS data release InformationURLs added, FIELDS data quality flag definition updated, metadata generated by LFB
Description

PSP FIELDS Digital Fields Board (DFB), XXX ⨯ YYY cross spectra data:

The DFB is the low frequency, less than 75 kHz, component of the FIELDS experiment on the Parker Solar Probe spacecraft, see reference [1] below. For a full description of the FIELDS experiment, see reference [2]. For a description of the DFB, see reference [3].

DFB AC cross spectra data for a pair of input channels consist of:

    1. Power spectral densities (auto spectra, e.g. FT₁ ⨯ FT₁*)
    1. Real and imaginary parts of the spectral cross term (FT₁ ⨯ FT₂*)
    1. Coherence
    1. Phase

where all as a function of frequency and time. The last two terms are describedcoherence and phase are defined in [3].

These cross spectra are averaged in both frequency and time as described in [3]. The cross spectra have either 56 or 96 bins (selectable) with the bin central frequencies reported in the metadata. The AC cross spectra are duty-cycled such that spectral averaging takes place over the first 1/8 of any given NYs (assuming a 1 NYs data cadence). Less data are averaged by 2^N for cadences faster than 1 NYs by 2^N. For cadences slower than 1 NYs, the first 1/8 of each NYs of data included are averaged together to form the reported data.

The Level 2 data products contained in this data file have been calibrated for:

    1. The Hanning window used in the spectral calculation
    1. DFB in-band gain
    1. DFB analog filter gain response
    1. DFB digital filter gain response
    1. The search coil preamplifier response, when applicable
    1. The bandwidth of each spectral bin

Note that compensation for the DFB digital filters will introduce a non-physical positively sloped power trend at high frequencies when the non-corrected signal is dominated by noise. This effect should be examined carefully when determining spectral slopes and features at the highest frequencies. Calibrations for the FIELDS preamplifiers have not been implemented as the preamplifier response is flat and equal to one through the DFB frequency range. Corrections for plasma sheath impedance gain and antenna effective length have not been applied to voltage sensor signals. These corrections will be applied in the Level 3 DFB data products. Therefore, all voltage sensor quantities when present in these Level 2 data products are expressed by using units of Volts squared per Hertz. Likewise, all magnetic field quantities when present in these Level 2 data product are expressed by using units of nanoTesla squared per Hertz. The units for phase are degrees.

The Level 2 voltage data products contained in this data file are expressed in sensor coordinates: e.g. dV12, dV34 for voltage measurements. For solar orbits 1 and 2, the search coil magnetometer cross spectra data are rotated into a non-intuitive coordinate system with components [d,e,f]. For solar orbits 3 and beyond, the magnetic field cross spectra data are expressed by using search coil magnetometer sensor coordinates with components [u,v,w].

To rotate from [d,e,f] coordinates to [u,v,w] search coil sensor coordinates, use the following matrix, written in IDL notation, and the following equation: spectra_uvw_vector = R ## spectra_def_vector.

R = [[ 0.46834856, -0.81336422 , 0.34509170]
[ -0.66921924, -0.071546954, 0.73961249]
[ -0.57688408, -0.57733845 , -0.57782790]]

For some orbits, sufficient spectral information exists in the auto spectra and cross spectra to determine wave ellipticity, planarity, and wave normal angles. One method for accomplishing this is presented in reference [4].

Time resolution of the DFB AC cross spectral data can vary by multiples of 2^N. During encounter (when PSP is within 0.25 AU of the Sun), cadence for the DFB AC cross spectra is typically 1 NYsecond [2]. Timestamps correspond to the center time of each window.

References:

    1. Fox, N.J., Velli, M.C., Bale, S.D. et al., Space Sci Rev (2016) 204:7. https://doi.org/10.1007/s1121401502116
    1. Bale, S.D., Goetz, K., Harvey, P.R. et al., Space Sci Rev (2016) 204:49. https://doi.org/10.1007/s1121401602445
    1. Malaspina, D.M., Ergun, R.E., Bolton, M. et al., JGR Space Physics (2016), 121, 5088-5096. https://doi.org/10.1002/2016JA022344
    1. Santolik, O., Parrot, M., Lefeuvre, F. Radio Science (2003), 38, 1010. https://doi.org/10.1029/2000RS002523
Acknowledgement
Please acknowledge the Principal Investigator S.D. Bale for use of the Data
PublicationInfo
Authors
Bale, Stuart D; Dudok de Wit, Thierry; Malaspina, David M; Chasapis, Alexandros; Pulupa, Marc; Quinn, Timothy; Schroeder, Peter
PublicationDate
2020-01-01 00:00:00
PublishedBy
NASA Space Physics Data Facility
Contacts
RolePersonStartDateStopDateNote
1.PrincipalInvestigatorspase://SMWG/Person/Stuart.D.Bale
2.MetadataContactspase://SMWG/Person/Robert.M.Candey
3.MetadataContactspase://SMWG/Person/Lee.Frost.Bargatze
InformationURL
Name
PSP FIELDS Instrument Suite, Space Science Review Publication
URL
Description

Parker Solar Probe, PSP, FIELDS Instrument Suite Description: Bale, S.D., Goetz, K., Harvey, P.R. et al., The FIELDS Instrument Suite for Solar Probe Plus, Space Sci Rev 204, 49-82 (2016)

InformationURL
Name
PSP FIELDS Instrument Suite, Digital Fields Board, JGR Space Physics Publication
URL
Description

Parker Solar Probe, PSP, FIELDS Instrument Suite, Digital Fields Board, DFB, Description: Malaspina, D.M., Ergun, R.E., Bolton, M. et al., The Digital Fields Board for the FIELDS Instrument Suite on the Solar Probe Plus Mission: Analog and Digital signal Processing, JGR Space Physics, 121, 5088-5096 (2016)

InformationURL
Name
PSP FIELDS Instrument Suite, Data Description, SOC Web Site, UC Berkeley
URL
Description

Parker Solar Probe, PSP, FIELDS Instrument Suite, Data Description and Access, Spacecraft Operations Center, SOC, Web Site, UC Berkeley

InformationURL
Name
PSP FIELDS Instrument Suite, Rules of the Road, SOC Web Site, UC Berkeley
URL
Description

Parker Solar Probe, PSP, FIELDS Instrument Suite, Rules of the Road, Spacecraft Operations Center, SOC, Web Site, UC Berkeley

InformationURL
Name
PSP Mission Overview, APL, JHU
URL
Description

Parker Solar Probe, PSP, Mission Overview, hosted by the Applied Physics Laboratory, Johns Hopkins University

InformationURL
Name
Release notes for PSP/FIELDS data release 5.1
URL
Description

PSP/FIELDS data release 5.1, on October 19, 2020, updates the dfb_dbm_scm and dfb_wf_dvdc data types to version 3. The new data versions contain significant corrections to the previously released data.

InformationURL
Name
Release notes for PSP/FIELDS data release 7
URL
Description

PSP/FIELDS data release 7, on April 4, 2021, includes data from PSP Encounter 6 (September 2020). All data up to and including December 2020 are now publicly available. For this data release, all DFB cross spectra have been reprocessed (with a new version number), and a subset of MAG data has also been reprocessed (with a new version number).

InformationURL
Name
Release notes for PSP/FIELDS data release 8
URL
Description

PSP/FIELDS data release 8, on June 28, 2021, includes survey data from PSP Encounter 7 and Venus Gravity assist 4. Several data sets have been updated in release 8.

InformationURL
Name
Release notes for PSP/FIELDS data release 9
URL
Description

PSP/FIELDS Data Release 9, on October 29, 2021, includes select data from Encounter 7 (perihelion January 2021), and survey and select data from Encounter 8 (perihelion April 2021).

InformationURL
Name
Release notes for PSP/FIELDS data release 10
URL
Description

PSP/FIELDS Data Release 10, on February 7, 2022, includes survey and select data from Encounter 9 (perihelion August 2021).

InformationURL
Name
Release notes for PSP/FIELDS data release 11
URL
Description

PSP/FIELDS Data Release 11, on April 25, 2022, includes survey and select data from Encounter 10 (perihelion November 2021), and survey and select data from Venus Gravity Assist 5 (October 2021).

PriorIDs
spase://VSPO/NumericalData/ParkerSolarProbe/FIELDS/DFB/Level2/AC/CrossSpectra/SCM/E-F/LowFrequency/HighGain/PT0.873813S
AccessInformation
RepositoryID
Availability
Online
AccessRights
Open
AccessURL
Name
FTPS from SPDF (not with most browsers)
URL
Description

Access to Data in CDF Format via ftp from SPDF

AccessURL
Name
HTTPS from SPDF
URL
Description

Access to Data in CDF Format via http from SPDF

AccessURL
Name
CDAWeb
URL
ProductKey
PSP_FLD_L2_DFB_AC_XSPEC_SCMELFHG_SCMFLFHG
Description

Access to ASCII, CDF, and Plots via NASA/GSFC CDAWeb

Format
CDF
Encoding
None
Acknowledgement
Please acknowledge the Principal Investigator S.D. Bale. Please acknowledge the Data Providers and CDAWeb when using these Data.
AccessInformation
RepositoryID
Availability
Online
AccessRights
Open
AccessURL
Name
CDAWeb HAPI Server
URL
Style
HAPI
ProductKey
PSP_FLD_L2_DFB_AC_XSPEC_SCMELFHG_SCMFLFHG
Description

Web Service to this product using the HAPI interface.

Format
CSV
Acknowledgement
Please acknowledge the Principal Investigator S.D. Bale. Please acknowledge the Data Providers and CDAWeb when using these Data.
ProcessingLevel
Calibrated
InstrumentIDs
MeasurementType
InstrumentStatus
MeasurementType
Waves.Passive
TemporalDescription
TimeSpan
StartDate
2018-10-31 00:00:00.000
RelativeStopDate
-P6M
Cadence
PT0.873813S
ObservedRegion
Heliosphere
ObservedRegion
Heliosphere.Inner
ObservedRegion
Heliosphere.NearEarth
ObservedRegion
Sun.Corona
Parameter #1
Name
Epoch Time, TT2000, DFB, AC SCMelfhg-SCMflfhg Cross Spectra
ParameterKey
epoch
Description

Epoch Time Tags in Terrestrial Time 2000, TT2000, for Digital Fields Board, DFB, AC-coupled SCMelfhg-SCMflfhg Cross Spectra

Caveats
This Parameter exhibits an increasing Monotonic Progression
Cadence
PT0.873813S
Units
ns
UnitsConversion
1.0e-9>s
RenderingHints
AxisLabel
epoch
ValueFormat
I22
ValidMin
2010-01-01T00:00:00.000000000
ValidMax
2050-01-01T00:00:00.000000000
FillValue
9999-12-31T23:59:59.999999999
Support
SupportQuantity
Temporal
Parameter #2
Name
DFB, Cross Spectra, Frequency Bins for AC SCMelfhg-SCMflfhg
Set
Time Series defined by using: EPOCH
ParameterKey
psp_fld_l2_dfb_ac_xspec_SCMelfhg_SCMflfhg_frequency_bins
Description

FIELDS Digital Fields Board, DFB, Frequency Bins for AC-coupled SCMelfhg-SCMflfhg Cross Spectra

Cadence
PT0.873813S
Units
Hz
RenderingHints
AxisLabel
frequency
ValueFormat
F8.1
ScaleType
LogScale
Structure
Size
43
ValidMin
366.211
ValidMax
29296.9
FillValue
-1.0e+31
Support
Qualifier
Array
SupportQuantity
Other
Parameter #3
Name
Auto Spectra, Power, SCMflfhg
Set
Time Series defined by using: EPOCH
ParameterKey
psp_fld_l2_dfb_ac_xspec_power_ch1_SCMelfhg
Description

Auto Spectra, Power, channel SCMflfhg

Cadence
PT0.873813S
Units
nT^2/Hz
UnitsConversion
1.0e-18>T^2/Hz
RenderingHints
DisplayType
Spectrogram
AxisLabel
PSD
ValueFormat
E12.3
ScaleType
LogScale
Structure
Size
43
ValidMin
-1.0e+20
ValidMax
1.0e+20
FillValue
-1.0e+31
Wave
Qualifier
CrossSpectrum
Qualifier
Array
Qualifier
Component.J
Qualifier
Component.K
WaveQuantity
ACMagneticField
Parameter #4
Name
Saturation Flags for Auto Spectra, Power, SCMelfhg
Set
Time Series defined by using: EPOCH
ParameterKey
psp_fld_l2_dfb_ac_xspec_power_ch1_SCMelfhg_saturation_flags
Description

Saturation Flags for Auto Spectra, Power, channel SCMelfhg

Cadence
PT0.873813S
RenderingHints
DisplayType
TimeSeries
ValueFormat
I08
ScaleType
LinearScale
ValidMin
0
ValidMax
3
FillValue
-32768
Support
Qualifier
Scalar
SupportQuantity
InstrumentMode
Parameter #5
Name
Auto Spectra, Power, SCMflfhg
Set
Time Series defined by using: EPOCH
ParameterKey
psp_fld_l2_dfb_ac_xspec_power_ch2_SCMflfhg
Description

Auto Spectra, Power, channel SCMflfhg

Cadence
PT0.873813S
Units
nT^2/Hz
UnitsConversion
1.0e-18>T^2/Hz
RenderingHints
DisplayType
Spectrogram
AxisLabel
PSD
ValueFormat
E12.3
ScaleType
LogScale
Structure
Size
43
ValidMin
-1.0e+20
ValidMax
1.0e+20
FillValue
-1.0e+31
Wave
Qualifier
CrossSpectrum
Qualifier
Array
Qualifier
Component.J
Qualifier
Component.K
WaveQuantity
ACMagneticField
Parameter #6
Name
Saturation Flags for Auto Spectra, Power, SCMflfhg
Set
Time Series defined by using: EPOCH
ParameterKey
psp_fld_l2_dfb_ac_xspec_power_ch2_SCMflfhg_saturation_flags
Description

Saturation Flags for Auto Spectra, Power, channel SCMflfhg

Cadence
PT0.873813S
RenderingHints
DisplayType
TimeSeries
ValueFormat
I08
ScaleType
LinearScale
ValidMin
0
ValidMax
3
FillValue
-32768
Support
Qualifier
Scalar
SupportQuantity
InstrumentMode
Parameter #7
Name
Cross Spectra, Coherence, SCMelfhg-SCMflfhg
Set
Time Series defined by using: EPOCH
ParameterKey
psp_fld_l2_dfb_ac_xspec_coh_SCMelfhg_SCMflfhg
Description

Cross Spectra, Coherence between channels SCMelfhg-SCMflfhg

Cadence
PT0.873813S
RenderingHints
DisplayType
Spectrogram
AxisLabel
Coh
ValueFormat
E12.3
ScaleType
LinearScale
Structure
Size
43
ValidMin
0.0
ValidMax
1.2
FillValue
-1.0e+31
Wave
Qualifier
CrossSpectrum
Qualifier
Array
WaveQuantity
ACMagneticField
Parameter #8
Name
Saturation Flags for Cross Spectra, Coherence, SCMelfhg-SCMflfhg
Set
Time Series defined by using: EPOCH
ParameterKey
psp_fld_l2_dfb_ac_xspec_coh_SCMelfhg_SCMflfhg_saturation_flags
Description

Saturation Flags for Cross Spectra, Coherence between channels SCMelfhg-SCMflfhg

Cadence
PT0.873813S
RenderingHints
DisplayType
TimeSeries
ValueFormat
I08
ScaleType
LinearScale
ValidMin
0
ValidMax
3
FillValue
-32768
Support
Qualifier
Scalar
SupportQuantity
InstrumentMode
Parameter #9
Name
Cross Spectra, Phase, SCMflfhg relative to SCMelfhg
Set
Time Series defined by using: EPOCH
ParameterKey
psp_fld_l2_dfb_ac_xspec_phase_SCMelfhg_SCMflfhg
Description

Cross Spectra, Phase of channel SCMflfhg relative to channel SCMelfhg

Cadence
PT0.873813S
Units
°
UnitsConversion
0.0174532925>rad
RenderingHints
DisplayType
Spectrogram
AxisLabel
Phase
ValueFormat
E12.3
ScaleType
LinearScale
Structure
Size
43
ValidMin
-95.0
ValidMax
95.0
FillValue
-1.0e+31
Wave
Qualifier
CrossSpectrum
Qualifier
Phase
Qualifier
Array
WaveQuantity
ACMagneticField
Parameter #10
Name
Saturation Flags for Cross Spectra, Phase, SCMflfhg relative to SCMelfhg
Set
Time Series defined by using: EPOCH
ParameterKey
psp_fld_l2_dfb_ac_xspec_phase_SCMelfhg_SCMflfhg_saturation_flags
Description

Saturation Flags for Cross Spectra, Phase of channel SCMflfhg relative to channel SCMelfhg

Cadence
PT0.873813S
RenderingHints
DisplayType
TimeSeries
ValueFormat
I08
ScaleType
LinearScale
ValidMin
0
ValidMax
3
FillValue
-32768
Support
Qualifier
Scalar
SupportQuantity
InstrumentMode
Parameter #11
Name
Cross Spectra, Real Part, SCMelfhg-SCMflfhg
Set
Time Series defined by using: EPOCH
ParameterKey
psp_fld_l2_dfb_ac_xspec_crossterm_Real_SCMelfhg_SCMflfhg
Description

Cross Spectra, Real Part (co-spectra) of the Fourier Transfrom cross term (FT₁ ⨯ FT₂*), channels SCMelfhg-SCMflfhg

Cadence
PT0.873813S
Units
nT^2/Hz
UnitsConversion
1.0e-18>T^2/Hz
RenderingHints
DisplayType
Spectrogram
AxisLabel
CrossTerm_Re
ValueFormat
E12.3
ScaleType
LinearScale
Structure
Size
43
ValidMin
-1.0e+20
ValidMax
1.0e+20
FillValue
-1.0e+31
Wave
Qualifier
CrossSpectrum
Qualifier
Array
Qualifier
Component.J
Qualifier
Component.K
WaveQuantity
ACMagneticField
Parameter #12
Name
Saturation Flags for Cross Spectra, Real Part, SCMelfhg-SCMflfhg
Set
Time Series defined by using: EPOCH
ParameterKey
psp_fld_l2_dfb_ac_xspec_crossterm_Real_SCMelfhg_SCMflfhg_saturation_flags
Description

Saturation Flags for Cross Spectra, Real Part of the Fourier Transfrom cross term (FT₁ ⨯ FT₂*), channels SCMelfhg-SCMflfhg

Cadence
PT0.873813S
RenderingHints
DisplayType
TimeSeries
ValueFormat
I08
ScaleType
LinearScale
ValidMin
0
ValidMax
3
FillValue
-32768
Support
Qualifier
Scalar
SupportQuantity
InstrumentMode
Parameter #13
Name
Cross Spectra, Imaginary Part, SCMelfhg-SCMflfhg
Set
Time Series defined by using: EPOCH
ParameterKey
psp_fld_l2_dfb_ac_xspec_crossterm_Imag_SCMelfhg_SCMflfhg
Description

Cross Spectra, Imaginary Part (quadrature) of the Fourier Transfrom cross term (FT₁ ⨯ FT₂*), channels SCMelfhg-SCMflfhg

Cadence
PT0.873813S
Units
nT^2/Hz
UnitsConversion
1.0e-18>T^2/Hz
RenderingHints
DisplayType
Spectrogram
AxisLabel
CrossTerm_Im
ValueFormat
E12.3
ScaleType
LinearScale
Structure
Size
43
ValidMin
-1.0e+20
ValidMax
1.0e+20
FillValue
-1.0e+31
Wave
Qualifier
CrossSpectrum
Qualifier
Array
Qualifier
Component.J
Qualifier
Component.K
WaveQuantity
ACMagneticField
Parameter #14
Name
Saturation Flags for Cross Spectra, Imaginary Part, SCMelfhg-SCMflfhg
Set
Time Series defined by using: EPOCH
ParameterKey
psp_fld_l2_dfb_ac_xspec_crossterm_Imag_SCMelfhg_SCMflfhg_saturation_flags
Description

Saturation Flags for Cross Spectra, Imaginary Part of the Fourier Transfrom cross term, channels SCMelfhg-SCMflfhg

Cadence
PT0.873813S
RenderingHints
DisplayType
TimeSeries
ValueFormat
I08
ScaleType
LinearScale
ValidMin
0
ValidMax
3
FillValue
-32768
Support
Qualifier
Scalar
SupportQuantity
InstrumentMode
Parameter #15
Name
Epoch Time, TT2000, FIELDS Data Quality Flags
ParameterKey
epoch_quality_flags
Description

Epoch Time Tags in Terrestrial Time 2000, TT2000, for FIELDS Instrument Suite Data Quality Flags

Caveats
This Parameter exhibits an increasing Monotonic Progression
Cadence
PT0.873813S
Units
ns
UnitsConversion
1.0e-9>s
RenderingHints
AxisLabel
epoch
ValueFormat
I22
ValidMin
2010-01-01T00:00:00.000000000
ValidMax
2050-01-01T00:00:00.000000000
FillValue
9999-12-31T23:59:59.999999999
Support
SupportQuantity
Temporal
Parameter #16
Name
FIELDS Data Quality Flags
Set
Time Series defined by using: EPOCH_QUALITY_FLAGS
ParameterKey
psp_fld_l2_quality_flags
Description

FIELDS Instrument Suite Data Quality Flags

Caveats
FIELDS quality flags: These flags are bitwise variables, meaning that multiple flags can be set simultaneously for a single time by adding flag values. Current flagged values are: * 1: FIELDS Antenna Bias Sweep * 2: PSP Thruster Firing * 4: SCM Calibration * 8: PSP Rotations for MAG Calibration, MAG Rolls * 16: FIELDS MAG Calibration Sequence * 32: SWEAP SPC in Electron Mode * 64: PSP Solar Limb Sensor, SLS, Test * 128: PSP Spacecraft is off Umbra Pointing, Heat Shield not pointed Sunward * 256: High Frequency Noise affecting RFS and TDS Receivers * 512: Antennas driven towards the FIELDS Power Supply Rails A value of zero corresponds to no set flags. Not all flags are relevant to all FIELDS data products, refer to notes in the CDF metadata and on the FIELDS Satellite Operations Center, SOC, website for information on how the various flags impact FIELDS data. For more information on the quality flags describing high frequency noise and antennas driven to the rails, see release notes for PSP/FIELDS releases 8 and 9. Additional flagged items may be added in the future.
Cadence
PT0.873813S
RenderingHints
AxisLabel
flag
ValueFormat
I10
ValidMin
0
ValidMax
1023
FillValue
4294967295
Support
Qualifier
Scalar
SupportQuantity
InstrumentMode
Parameter #17
Name
Rotation Matrix, (d,e,f) to (u,v,w)
ParameterKey
scm_rotation_matrix_def_uvw
Description

Rotation Matrix from (d,e,f) to (u,v,w) Coordinates

Cadence
PT0.873813S
RenderingHints
ValueFormat
F10.3
Structure
Size
3 3
Support
Qualifier
Array
SupportQuantity
Other