Data Description

This page summarizes information about the selected resource and its origin based on SPASE metadata.

Table of Contents

  1. Product
  2. Repository
  3. Instruments
  4. ObservatoryObservatories
  5. Persons

SPASE version 2.2.1

Display Data Product: STEREO WAVES (SWAVES) PDF Dynamic Spectrogram Plots both Ahead and Behind s/c

Resource ID
spase://VWO/DisplayData/STEREO/SWAVES/DS.Color.PDF.P1D Get XML
Name
STEREO WAVES (SWAVES) PDF Dynamic Spectrogram Plots both Ahead and Behind s/c
Description

This dataset contains 24 hour duration dynamic spectrogram plots from the combined STEREO A and B Waves instrument.

The plots are provided in several file formats (PNG, Postscript and PDF) and there are renditions in color and grayscale with and without additional lines of time series data indicating the instrument operating status. These plots all reside within the same directory structure subdivided by year. The "new" subdirectory contain plots at a higher resolution but currently are not available for dates early in the mission.

These data consist of output from the SWAVES HFR and LFR receivers.

– the High Frequency Receivers (HFR) - for spectral analysis and direction finding of radio noise generated from a few solar radii (16 MHz) to about half an Astronomical Unit (125 kHz)

– the Low Frequency Receiver (LFR) - for spectral analysis and direction finding from about half an Astronomical Unit (160 kHz) to one AU (2.5 kHz).

Additional information
STEREO/WAVES Instrument Page

STEREO/WAVES instrument page maintained by NASA GSFC with science and instrument descriptions, data, personnel, publications, and related links sections

Language
en
STEREO Mission Page at NASA/GSFC

STEREO mission page with spacecraft and instrument descriptions, news, links to data (STEREO Science Center), and image gallerys

Language
en
Acknowledgement

Users please acknowledge the STEREO/WAVES Principal Investigator Jean-Louis Henry Bougeret.

Contact
Role Person
1. Principal investigator Dr. Jean-Louis Henry Bougeret Get XML
2. CoInvestigator

General contact 		Dr. Robert J. MacDowall Get XML
Release date
2012-03-01 12:00:00
Association
Get XML
Prior ID
Repository
Name
STEREO Science Center Get XML
Availability
Online
Access rights
Open
URL
STEREO Waves Data Summary Plot Viewer

A Web Service to enable viewing STEREO/Waves A and B spectrograms with selection options of color, grayscale, both with and without status bars and the ability to select a new higher resolution version. Plot Download links for PNG, PS and PDF also available.

Language
en
Format
PDF
Encoding
None
Acknowledgement
Instruments
STEREO-A Waves (SWAVES) Get XML
STEREO-B Waves (SWAVES) Get XML
Measurement type
Spectrum
Passive waves
Temporal description
Start date
2006-10-27 20:24:42
Relative stop date
1 day ago
Cadence
1 minute
Spectral range
RadioFrequency
Display cadence
1 day
Observed regions
Heliosphere.Inner
Heliosphere.Remote1AU
Jupiter
Sun
Keywords
Dynamic Spectrogram
Jovian Decametric Radiation
Jupiter DAM
Solar radio burst
Spectrogram
Type II Solar radio burst
Type III Solar radio burst

Parameters

Parameter #1

Name
Electric Spectral Density
Description
Units
dbV/m*root(Hz)
Wave type
Plasma waves
Quantity
ACElectricField
Qualifier
Magnitude
Pseudo
Frequency range
Spectral range
RadioFrequency
Low frequency
2.6
High frequency
16025
Units
kHz

SPASE version 2.0.3

Instrument: STEREO-A Waves (SWAVES)

Instrument ID
spase://SMWG/Instrument/STEREO-A/SWAVES Get XML
Name
STEREO-A Waves (SWAVES)
Alternate name
SWAVES
Description

This experiment is designed to measure remotely and in situ:

  • Type II radio bursts associated with electrons accelerated by CME-driven shocks;
  • Type III radio bursts associated with impulsively accelerated electrons streaming out from the sun;
  • in situ plasma waves and waveforms.

Two radio receivers measure wave intensity, source direction and angular size in the frequency range 16 MHz to 40 kHz, corresponding to heliocentric source distances of about 1 Rs to 1 AU. One 10-40 kHz receiver measures radio and plasma waves near the 1 AU electron plasma frequency. One receiver makes high time resolution measurements at 50 MHz. Time Domain Samplers make simultaneous wideband waveform measurements on three electric components. Antenna systems include three mutually orthogonal 6-meter monopoles.

Additional information
NSSDC's Master Catalog

Information about the Stereo/Waves (Swaves) experiment on the STEREO A mission.

Contact
Role Person
1. Principal investigator Dr. Jean-Louis Henry Bougeret Get XML
Release date
2010-03-10 21:08:40
Instrument type
Unspecified
Investigation name
Stereo/Waves (Swaves) on STEREO A
Observatory
STEREO A Get XML

SPASE version 2.0.3

Instrument: STEREO-B Waves (SWAVES)

Instrument ID
spase://SMWG/Instrument/STEREO-B/SWAVES Get XML
Name
STEREO-B Waves (SWAVES)
Alternate name
SWAVES
Description

This experiment is designed to measure remotely and in situ:

  • Type II radio bursts associated with electrons accelerated by CME-driven shocks;
  • Type III radio bursts associated with impulsively accelerated electrons streaming out from the sun;
  • in situ plasma waves and waveforms.

Two radio receivers measure wave intensity, source direction and angular size in the frequency range 16 MHz to 40 kHz, corresponding to heliocentric source distances of about 1 Rs to 1 AU. One 10-40 kHz receiver measures radio and plasma waves near the 1 AU electron plasma frequency. One receiver makes high time resolution measurements at 50 MHz. Time Domain Samplers make simultaneous wideband waveform measurements on three electric components. Antenna systems include three mutually orthogonal 6-meter monopoles.

Additional information
NSSDC's Master Catalog

Information about the Stereo/Waves (Swaves) experiment on the STEREO B mission.

Contact
Role Person
1. Principal investigator Dr. Jean-Louis Henry Bougeret Get XML
Release date
2010-03-10 21:08:40
Instrument type
Unspecified
Investigation name
Stereo/Waves (Swaves) on STEREO B
Observatory
STEREO B Get XML

SPASE version 2.2.0

Observatory: STEREO A

Observatory ID
spase://SMWG/Observatory/STEREO-A Get XML
Name
STEREO A
Alternate name
STEREO Ahead
STEREO East
Solar Terrestrial Relations Observatory A
Description

The Solar-Terrestrial Relations Observatory (STEREO) mission includes two spacecraft respectively lagging (STEREO A) and leading (STEREO B) the Earth in heliocentric orbit around the Sun for remote 3-D imaging and radio observations of coronal mass ejections (CMEs). These events are responsible for large solar energetic particle events in interplanetary space and are the primary cause of major geomagnetic storms at Earth. The two spacecraft are launched to drift slowly away from the Earth in opposite directions at about 10 degrees per year for the lagging spacecraft and 20 degrees per year for the leading one. Optimal longitudinal separation of about sixty degrees is achieved after two years. Afterwards the separation gradually increases beyond the design lifetime of two years with the possibility of extended mission observations at larger angles. Science instruments selected for STEREO include the Sun Earth Connection Coronal and Heliospheric Investigation (SECCHI) for extreme ultraviolet (EUV), white-light coronographic, and heliospheric imaging, the STEREO/WAVES (SWAVES) interplanetary radio burst tracker, the In situ Measurements of Particles and CME Transients (IMPACT) investigation for in-situ sampling the 3-D distribution and plasma characteristics of solar energetic particles and the interplanetary magnetic field, and the PLAsma and SupraThermal Ion and Composition (PLASTIC) experiment to measure elemental and charge composition of ambient and CME plasma ions. STEREO data recorded and stored onboard each spacecraft will be downlinked through the NASA Deep Space Network on a daily schedule. Real-time space weather data will be continuously transmitted through a separate beacon system to NASA and non-NASA receiving stations.

Additional information
STEREO Project Page

Project home page

NSSDC's Master Catalog

Information about the STEREO A mission

Contact
Role Person
1. Project scientist Mr. Michael L. Kaiser Get XML
Release date
2010-09-25 03:09:48
Prior ID
spase://vspo/observatory/139
Observatory group
STEREO Mission Get XML
Location
Region
Heliosphere.Remote1AU

SPASE version 2.2.0

Observatory: STEREO B

Observatory ID
spase://SMWG/Observatory/STEREO-B Get XML
Name
STEREO B
Alternate name
STEREO Behind
STEREO West
Solar Terrestrial Relations Observatory B
Description

The Solar-Terrestrial Relations Observatory (STEREO) mission includes two spacecraft respectively lagging (STEREO A) and leading (STEREO B) the Earth in heliocentric orbit around the Sun for remote 3-D imaging and radio observations of coronal mass ejections (CMEs). These events are responsible for large solar energetic particle events in interplanetary space and are the primary cause of major geomagnetic storms at Earth. The two spacecraft are launched to drift slowly away from the Earth in opposite directions at about 10 degrees per year for the lagging spacecraft and 20 degrees per year for the leading one. Optimal longitudinal separation of about sixty degrees is achieved after two years. Afterwards the separation gradually increases beyond the design lifetime of two years with the possibility of extended mission observations at larger angles. Science instruments selected for STEREO include the Sun Earth Connection Coronal and Heliospheric Investigation (SECCHI) for extreme ultraviolet (EUV), white-light coronographic, and heliospheric imaging, the STEREO/WAVES (SWAVES) interplanetary radio burst tracker, the In situ Measurements of Particles and CME Transients (IMPACT) investigation for in-situ sampling the 3-D distribution and plasma characteristics of solar energetic particles and the interplanetary magnetic field, and the PLAsma and SupraThermal Ion and Composition (PLASTIC) experiment to measure elemental and charge composition of ambient and CME plasma ions. STEREO data recorded and stored onboard each spacecraft will be downlinked through the NASA Deep Space Network on a daily schedule. Real-time space weather data will be continuously transmitted through a separate beacon system to NASA and non-NASA receiving stations.

Additional information
STEREO Project Page

Project home page

NSSDC's Master Catalog

Information about the STEREO B mission

Contact
Role Person
1. Project scientist Mr. Michael L. Kaiser Get XML
Release date
2010-09-25 03:09:48
Prior ID
spase://vspo/observatory/140
Observatory group
STEREO Mission Get XML
Location
Region
Heliosphere.Remote1AU

SPASE version 2.2.0

Observatory: STEREO Mission

Observatory ID
spase://SMWG/Observatory/STEREO Get XML
Name
STEREO Mission
Description

The Solar-Terrestrial Relations Observatory (STEREO) mission includes two spacecraft respectively lagging (STEREO A) and leading (STEREO B) the Earth in heliocentric orbit around the Sun for remote 3-D imaging and radio observations of coronal mass ejections (CMEs). These events are responsible for large solar energetic particle events in interplanetary space and are the primary cause of major geomagnetic storms at Earth. The two spacecraft are launched to drift slowly away from the Earth in opposite directions at about 10 degrees per year for the lagging spacecraft and 20 degrees per year for the leading one. Optimal longitudinal separation of about sixty degrees is achieved after two years. Afterwards the separation gradually increases beyond the design lifetime of two years with the possibility of extended mission observations at larger angles. Science instruments selected for STEREO include the Sun Earth Connection Coronal and Heliospheric Investigation (SECCHI) for extreme ultraviolet (EUV), white-light coronographic, and heliospheric imaging, the STEREO/WAVES (SWAVES) interplanetary radio burst tracker, the In situ Measurements of Particles and CME Transients (IMPACT) investigation for in-situ sampling the 3-D distribution and plasma characteristics of solar energetic particles and the interplanetary magnetic field, and the PLAsma and SupraThermal Ion and Composition (PLASTIC) experiment to measure elemental and charge composition of ambient and CME plasma ions. STEREO data recorded and stored onboard each spacecraft will be downlinked through the NASA Deep Space Network on a daily schedule. Real-time space weather data will be continuously transmitted through a separate beacon system to NASA and non-NASA receiving stations.

Additional information
STEREO Project Page

Project home page

Contact
Role Person
1. Project scientist Mr. Michael L. Kaiser Get XML
Release date
2009-05-20 20:00:12
Location
Region
Heliosphere.Remote1AU

SPASE version 2.2.0

Person: Dr. Jean-Louis Henry Bougeret

Name
Dr. Jean-Louis Henry Bougeret
Organization
Observatoire de Paris-Meudon
Person ID
spase://SMWG/Person/Jean-Louis.Henry.Bougeret Get XML

SPASE version 2.2.0

Person: Dr. Robert J. MacDowall

Name
Dr. Robert J. MacDowall
Organization
GSFC-Code 695
Person ID
spase://SMWG/Person/Robert.J.MacDowall Get XML

SPASE version 2.2.0

Person: Mr. Michael L. Kaiser

Name
Mr. Michael L. Kaiser
Organization
GSFC-Code 695
Person ID
spase://SMWG/Person/Michael.L.Kaiser Get XML

SPASE version 1.2.0

Repository: STEREO Science Center

Repository ID
spase://SMWG/Repository/NASA/GSFC/STEREO_SC Get XML
Name
STEREO Science Center
Alternate name
SSC
Description

STEREO Science Center, NASA/Goddard

Additional information
STEREO Science Center
Contact
Role Person
1. General contact Mr. Michael L. Kaiser Get XML
Release date
2008-08-26 21:02:30
Prior ID
spase://SMWG/Repository/STEREO_SC
Access URL