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

SPASE version 2.0.1

Numerical Data Product: Interball-1 6-sec vector magnetic field data

Resource ID

spase://VMO/NumericalData/Interball-1/FM3I/PT6S

Name

Interball-1 6-sec vector magnetic field data

Alternate name

Interball-1 MFI H0 data

Description

Magnetic field measurements on-board the Interball 1 probe are carried out by the FM-3I and MFI (FGM-I) instruments. Data presented here are the combination of the data of all magnetometers. First, all FM-3I M1 data are used, if they are absent, the MFI data are used, and if data from both magnetometer are absent, FM-3I M2 data presented. The FM-3 M1 and MFI data are averaged over 6-second time intervals.

Acknowledgement

The Interball project, IZMIRAN and Space Research Institute RAS (SRI).

Contact

	Role	Person
1.	Principal investigator	Dr. Mikhail Nozdrachev
2.	Data producer	Valery G. Petrov
3.	Data producer	Dr. Ramona L. Kessel
4.	Metadata contact	Jan Merka

Release date

2009-07-15 22:15:10

Repository

Name

CDAWeb Data Repository FTP Interface

Availability

Online

Access rights

Open

URL

CDAWeb FTP download

Format

CDF

Encoding

None

Instruments

Tri-axial Fluxgate Magnetometer FGM-I

Fluxgate DC Magnetometer FM-3I

Measurement type

Magnetic field

Temporal description

Start date: 1995-08-06 07:11:09
Stop date: 2000-10-15 21:53:27
Cadence: 6 seconds

Observed regions

Earth.Magnetosheath

Earth.Magnetosphere

Earth.Magnetosphere.Main

Earth.Magnetosphere.Polar

Heliosphere.NearEarth

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Parameters

Parameter #1

Name: Epoch
Parameter key: Epoch
Description: Time in miliseconds since CDF epoch
Units: ms
Conversion to SI units: 1e-3>s
Valid minimum: 01-Jan-1990 00:00:00.000
Valid maximum: 31-Dec-2010 00:00:00.000
Fill value: -1.0E31
Parameter type: Temporal

Parameter #2

Name: B
Parameter key: BF1
Description: Magnetic Field Magnitude, 6 sec, scalar
Units: nT
Conversion to SI units: 1e-9>T
Valid minimum: 0.0
Valid maximum: 350.0
Fill value: -1.0E31
Quantity: Magnetic field
Qualifier: Magnitude; Average

Parameter #3

Name

Bxyz GSE

Parameter key

B_GSE_cart

Description

Magnetic Field, 6 sec, cartesian GSE

Units

Conversion to SI units

1e-9>T

Coordinate system

Cartesian GSE

Structure

Size

Elements

Index	Name	Valid min	Valid max	Fill value
1	Bx GSE	-350.0	350.0	-1.0E31
2	By GSE	-350.0	350.0	-1.0E31
3	Bz GSE	-350.0	350.0	-1.0E31

Quantity

Magnetic field

Qualifier

Vector

Average

Parameter #4

Name

Brtp GSE

Parameter key

B_GSE_polar

Description

Magnetic Field, 6 sec, polar GSE. Br is the radial component, Bt is the elevation angle from the XY plane, Bp is the azimuthal angle from the X axis.

Coordinate system

Spherical GSE

Structure

Size

Elements

Index	Name	Units	Units conversion	Valid min	Valid max	Fill value
1	Br GSE	nT	1e-9>T	-350.0	350.0	-1.0E31
2	Bt GSE	deg		-90.0	90.0	-1.0E31
3	Bp GSE	deg		0.0	360.0	-1.0E31

Quantity

Magnetic field

Qualifier

Vector

Average

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SPASE version 2.0.0

Instrument: Tri-axial Fluxgate Magnetometer FGM-I

Instrument ID

spase://SMWG/Instrument/Interball-1/FGMI

Name

Tri-axial Fluxgate Magnetometer FGM-I

Alternate name

MFI

Description

The FGM-I instrument on the Interball Tail Probe consists of a triaxial fluxgate magnetometer and a Langmuir split probe plasma current sensor. The analog signal is transmitted to the telemetry system and to the MIF-M filter bank. Fields and waves are measured on the Tail Probe by the ASPI consortium of experiments, which includes: MIF-M -- fluxgate and search-coil magnetometers; FGM-I -- triaxial fluxgate sensor and plasma current sensor; OPERA -- a complex of electric field instruments; and PRAM -- the digital waveform processor unit. Two more ASPI instruments, ADS and IFPE, failed to switch on, likely due to hardware problems.

The FGMI magnetometer has the next parameters: measured range 0.3-37.5 nT, frequency range 0-2 Hz, sampling rate from 1/4 to 8 measurements per second.

Additional information

NSSDC's Master Catalog: Information about the Tri-axial Fluxgate Magnetometer FGM-I experiment on the Interball Tail Probe mission.

Contact

	Role	Person
1.	Principal investigator	Dr. J. Rustenbach
2.	Principal investigator	Dr. Sergey Savin

Release date

2009-05-20 21:10:11

Instrument type

Magnetometer

Investigation name

Tri-axial Fluxgate Magnetometer FGM-I on Interball Tail Probe

Observatory

Interball-1

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SPASE version 2.0.0

Instrument: Fluxgate DC Magnetometer FM-3I

Instrument ID

spase://SMWG/Instrument/Interball-1/FM3I

Name

Fluxgate DC Magnetometer FM-3I

Description

The FM-3I instrument consists of two flux-gate magnetometers M1 and M2 covering two different ranges: -200 to +200 nT and -1000 to +1000 nT. The M2 instrument is mostly used to perform the attitude control of the INTERBALL 1 spacecraft. M1 magnetometer data are transmitted to the scientific SSNI telemetry system at rates 0.125-16 vectors/s depending on the instrument operating mode. The magnetic field data from the M2 magnetometer are transmitted at the rate 1 vector per 6 seconds to the BNS attitude control system.

FM-3 M2 magnetometer failed in February 1996.

Additional information

NSSDC's Master Catalog: Information about the Fluxgate DC Magnetometer FM-3I experiment on the Interball Tail Probe mission.

Contact

	Role	Person
1.	Principal investigator	Dr. Mikhail Nozdrachev

Release date

2009-05-20 21:10:11

Instrument type

Magnetometer

Investigation name

Fluxgate DC Magnetometer FM-3I on Interball Tail Probe

Observatory

Interball-1

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SPASE version 2.0.0

Observatory: Interball-1

Observatory ID

spase://SMWG/Observatory/Interball-1

Name

Interball-1

Alternate name

1995-039A

Interball Tail Probe

Prognoz 11

Description

The Interball Project is a multi-national effort that consists of four spacecraft: two main spacecraft of the Prognoz series, made in Russia, each with a small subsatellite made in Czechoslovakia. The main objective is to study the physical mechanisms responsible for the transmission of solar wind energy to the magnetosphere, its storage there, and subsequent dissipation in the tail and auroral regions of the magnetosphere, ionosphere, and atmosphere during magnetospheric substorms. A ground-based support group will provide coordinated and simultaneous ground-based data of many types, including observations from auroral and polar cap regions. Interball is an IACG-related mission. Key physical parameters will be generated, and will be available for exchange with other projects. Campaigns for intercomparison with the Wind and Geotail spacecraft are expected. One pair of spacecraft, Tail Probe and its subsatellite S2-X (X for the first letter of the Russian word for ``Tail''), will be launched into the magnetospheric tail. The second pair, Auroral Probe and S2-A (A for ``Auroral''), will have an orbit that crosses the auroral oval to observe the acceleration of auroral particles and the flow of electric currents that connect the magnetospheric tail with the conducting ionosphere. To study the equilibrium tail structure, during about half of each year the Tail Probe pair will cross the main parts of the magnetotail every four days. The Auroral Probe pair will support the Tail Probe pair with auroral region measurements. Each main spacecraft has more than twenty scientific instruments. The spacecraft is cylindrical, with spin axis toward the sun (within 10 degrees), and with spin period of ~120 s. The electric and magnetic field sensors are on booms connected to the ends of the solar panels. The subsatellites are small, each with about ten scientific instruments. The spin axis will be directed within 10 degrees of the sun, with a spin period of ~120 s, as with the main spacecraft. The subsatellites also carry gas-jet thrusters for limited control of the orbit. Separation distance will range from hundreds of kilometers to several tens of thousands of kilometers for the Tail Probe pair. Separation distance will range from hundreds of meters to hundreds of kilometers for the Auroral Probe pair. The Tail Probe has two telemetry systems, at up to 32 Kbps in real-time, with a memory mode capacity of 30 Mb in the RTK telemetry system and 120 Mb in the SSNI system. The Auroral Probe has similar capability plus the additional real-time-only STO system, capable of 40 Kbps. Each subsatellite has only the STO real-time telemetry system. For S2-X the rate can be varied from 2--40 kbps. The Tail Probe has an adapting alert mode while in the memory mode, allowing time resolutions that are the same as in the real-time mode. The aim is to have the highest time resolution available at the thin borders of magnetospheric regions or the sharp borders of some features. In the alert mode (triggered by an on-board computer monitoring plasma and field parameters), the bit rate is increased for plasma, field, and wave measurements. The duration of these alert periods is about 10 minutes, and there can be 5--6 of them during one orbit.

Additional information

Interball Project: Interball project home page at IKI RSSI.
NSSDC's Master Catalog: Information about the Interball Tail Probe mission

Contact

	Role	Person
1.	Metadata contact	Jan Merka

Release date

2009-05-20 20:00:12

Observatory group

Interball Tail

Location

Region: Earth.Magnetosheath; Earth.Magnetosphere; Earth.Magnetosphere.Main; Earth.Magnetosphere.Polar; Heliosphere.NearEarth

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SPASE version 1.2.0

Repository: CDAWeb Data Repository FTP Interface

Repository ID

spase://SMWG/Repository/NASA/GSFC/SPDF/CDAWeb

Name

CDAWeb Data Repository FTP Interface

Description

Coordinated Data Analysis Web (CDAWeb) supports not only interactive plotting of variables from multiple instruments on multiple investigations simultaneously on arbitrary, user-defined time-scales. It also supports data retrieval in various formats using its interactive web interface or ftp service.

Additional information

CDAWeb Home Page: Coordinated Data Analysis Web (CDAWeb) home page at Space Physics Data Facility of the NASA Goddard Space Flight Center.

Contact

	Role	Person
1.	Project scientist	Dr. Robert E. McGuire

Release date

2008-08-26 21:14:34

Prior ID

spase://VMO/Repository/CDAWeb

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Data Description

Table of Contents

Numerical Data Product: Interball-1 6-sec vector magnetic field data

Parameters

Parameter #1

Parameter #2

Parameter #3

Parameter #4

Instrument: Tri-axial Fluxgate Magnetometer FGM-I

Instrument: Fluxgate DC Magnetometer FM-3I

Observatory: Interball-1

Person: Dr. Mikhail Nozdrachev

Person: Valery G. Petrov

Person: Dr. Ramona L. Kessel

Person: Jan Merka

Person: Dr. Robert E. McGuire

Person: Dr. J. Rustenbach

Person: Dr. Sergey Savin

Repository: CDAWeb Data Repository FTP Interface