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

SPASE version 2.0.0

Numerical Data Product: Vega 1 Magnetic Field Data (0.1 s), Halley Comet

Resource ID

spase://VHO/NumericalData/Vega1/MISCHA/FLYBY.PT0.1S

Name

Vega 1 Magnetic Field Data (0.1 s), Halley Comet

Description

This product contains high-resolution (0.1 s) magnetic field data for intervals of the closest approach of the Vega 1 spacecraft to Halley comet.

Magnetic field and position data are in the cometocentric solar ecliptic (CSE) coordinate system.

CSE coordinate system for the spacecraft position:

Origin is at comet position, x-axis from comet to the Sun, z-axis to ecliptic northpole.
The (x,y)-plane is parallel to the ecliptic plane.

CSE coordinate system for the magnetic field data:

Axes are parallel to the CSE system for the position.
This coordinate system is valid only for very short time, about 4 hours around the closest approach of the spacecraft to the comet, since for a larger angular distance of the spacecraft from the comet, the direction to the Sun from both objects will be different.

Acknowledgement

Use of these data in publications should be accompanied by acknowledgements of the National Space Science Data Center(NSSDC), Space Physics Data Facility(SPDF) and IZMIRAN at Moscow.

Contact

	Role	Person
1.	General contact	Valery G. Petrov
2.	Data producer	Dr. Valery A. Styazhkin
3.	Technical contact	Dr. Natalia E. Papitashvili
4.	Metadata contact	Jan Merka

Release date

2009-05-20 19:08:29

Repository

Name

NSSDC

Availability

Online

Access rights

Open

URL

Magnetic field measurements from Vega missions: FTP access to Vega mission data at NSSDC.

Format

Text.ASCII

Encoding

ASCII

Instrument

Magnetometer

Measurement type

Ephemeris

Magnetic field

Temporal description

Start date: 1986-03-05 07:20:30
Stop date: 1986-03-07 08:59:30
Cadence: 0.1 seconds

Observed regions

Comet

Heliosphere.Inner

Caveats

The CSE coordinate system for magnetic field data is valid only for very short time, about 4 hours around the closest approach of the spacecraft to the comet, since for a larger angular distance of the spacecraft from the comet, the direction to the Sun from both objects will be different.

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Parameters

Parameter #1

Name: Year
Parameter key: Column 1
Description: Time of observation (year)
Parameter type: Temporal

Parameter #2

Name: Month
Parameter key: Column 2
Description: Time of observation (month of year)
Parameter type: Temporal

Parameter #3

Name: Day
Parameter key: Column 3
Description: Time of observation (day of month)
Parameter type: Temporal

Parameter #4

Name: Hour
Parameter key: Column 4
Description: Time of observation (hour of day)
Parameter type: Temporal

Parameter #5

Name: Minute
Parameter key: Column 5
Description: Time of observation (minute)
Parameter type: Temporal

Parameter #6

Name: Second
Parameter key: Column 6
Description: Time of observation (second)
Units: s
Parameter type: Temporal

Parameter #7

Name: Bx
Parameter key: Column 7
Description: Magnetic field X in CSE coordinate system
Units: nT
Conversion to SI units: 1e-9>T
Coordinate system: Cartesian
Quantity: Magnetic field
Qualifier: Component I; Average

Parameter #8

Name: By
Parameter key: Column 8
Description: Magnetic field By component in CSE coordinate system
Units: nT
Conversion to SI units: 1e-9>T
Coordinate system: Cartesian
Quantity: Magnetic field
Qualifier: Component J; Average

Parameter #9

Name: Bz
Parameter key: Column 9
Description: Magnetic field Bz component in CSE coordinate system
Units: nT
Conversion to SI units: 1e-9>T
Coordinate system: Cartesian
Quantity: Magnetic field
Qualifier: Component K; Average

Parameter #10

Name: B
Parameter key: Column 10
Description: Magnetic field magnitude, nT
Units: nT
Conversion to SI units: 1e-9>T
Fill value: 9999.9
Quantity: Magnetic field
Qualifier: Magnitude; Average

Parameter #11

Name: X
Parameter key: Column 11
Description: X component of spacecraft position in CSE coordinates (Cometocentric ecliptic coordinate system)
Units: km
Conversion to SI units: 1e3>m
Coordinate system: Cartesian
Parameter type: Positional
Qualifier: Component I

Parameter #12

Name: Yse
Parameter key: Column 12
Description: Y component of spacecraft position in CSE coordinates (Cometocentric ecliptic coordinate system)
Units: km
Conversion to SI units: 1e3>m
Coordinate system: Cartesian
Parameter type: Positional
Qualifier: Component J

Parameter #13

Name: Zse
Parameter key: Column 13
Description: Z component of spacecraft position in CSE coordinates (Cometocentric ecliptic coordinate system)
Units: km
Conversion to SI units: 1e3>m
Coordinate system: Cartesian
Parameter type: Positional
Qualifier: Component K

Parameter #14

Name: Dist
Parameter key: Column 14
Description: Distance between spacecraft and Halley comet, km
Units: km
Conversion to SI units: 1e3>m
Parameter type: Positional

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SPASE version 2.0.0

Instrument: Magnetometer

Instrument ID

spase://SMWG/Instrument/Vega1/MISCHA

Name

Magnetometer

Alternate name

MISCHA

Magnetic Fields in Interplanetary Space during Comet Halley's approach

Description

The magnetometers on Vega 1 and Vega 2 were designed to measure the magnetic field and its low-frequency fluctuations in the cometary and solar wind interaction zone and in interplanetary space. The instrument on each spacecraft consisted of two fluxgate sensor units (one axial and triaxial) mounted 1 m apart on a 2-m boom. The advantage of this dual-sensor fluxgate system is the possibility to determine the spacecraft's stray magnetic field.

The axial unit was oriented along the spacecraft symmetry (X) axis, which was perpendicular to the solar panels and pointed toward the Sun. Each sensor had a dynamic range of ± 100 nT, sensitivity of 0.05 nT (12 bit) and a noise level of 0.01 nT/Hz^(1/2). Magnetic field vectors were measured with a sampling frequency of 10 vectors per second.

The magnetometers operated in three data rate modes:

1) the measured components were averaged during 2.5 minutes and transmitted to telemetry;
2) the measured components were averaged during 1 minute and transmitted to telemetry;
3) direct transmission mode, the measured components were transmitted to telemetry without averaging.

Cruise phase data were mostly taken in the 2.5-min averaging mode.

Additional information

NSSDC's Master Catalog: Information about the Magnetometer experiment on the Vega 1 mission.

Acknowledgement

Prof. Willi W. Riedler, Austrian Academy of Sciences, and IZMIRAN.

Contact

	Role	Person
1.	Principal investigator	Prof. Willi W. Riedler
2.	CoInvestigator	Dr. N. A. Stjazhkin
3.	CoInvestigator	Dr. Ye. G. Yeroshenko
4.	CoInvestigator	Dr. Konrad Schwingenschuh
5.	CoInvestigator	Dr. R. Schmidt
6.	Metadata contact	Jan Merka

Release date

2009-05-20 21:10:13

Instrument type

Magnetometer

Investigation name

Magnetic Fields in Interplanetary Space during Comet Halley's approach

Observatory

Vega 1

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SPASE version 2.0.0

Observatory: Vega 1

Observatory ID

spase://SMWG/Observatory/Vega1

Name

Vega 1

Alternate name

Venera-Halley 1

1984-125A

Description

This spacecraft mission combined a Venus swingby and a Comet Halley flyby. Two identical spacecraft, Vega 1 and Vega 2, were launched December 15 and 21, 1984, respectively. After carrying Venus entry probes to the vicinity of Venus (arrival and deployment of probes were scheduled for June 11-15, 1985), the two spacecraft were retargetted using Venus gravity field assistance to intercept Comet Halley in March 1986. The first spacecraft encountered Comet Halley on March 6, 1986, and the second three days later. The flyby velocity was 77.7 km/s. Although the spacecraft could be targetted with a precision of 100 km, the position of the spacecraft relative to the comet nucleus was estimated to be known only to within a few thousand kilometers. This, together with the problem of dust protection, led to estimated flyby distances of 10,000 km for the first spacecraft and 3000 km for the second.

The spacecraft was three-axis stabilized. Its main features were large solar panels, a high-gain antenna dish, and an automatic pointing platform carrying those experiments that required pointing at the comet nucleus. The automatic platform could rotate through + or -110 deg and + or -40 deg in two perpendicular directions with a pointing accuracy of 5 arc-min and a stability of 1 arc-min/s. It carried the narrow- and the wide-angle camera, the three-channel spectrometer, and the infrared sounder. All other experiments were body-mounted, with the exception of two magnetometer sensors mounted on a 2-m boom and various plasma probes and plasma wavw analyzers mounted on a 5-m boom. The total scientificpayload weighed 125 kg and had a data rate of 65 kbs in fast telemetry mode for encounter. There was also a slow telemetry mode for the cruise mode. The comet-encounter science data-take was from 2.5 h before until 0.5 h after the closest approach, with several periods of data-take before and after, each lasting about 2 h. Continuous coverage for plasma and dust instruments was provided by an onboard memory (5-megabit tape recorder). The spacecraft was shielded from hypervelocity dust impacts by a shield consisting of a 100-micrometer multilayer sheet 20 to 30 cm from the spacecraft, and a 1-mm Al sheet 5 to 10 cm from the spacecraft. Approximately half of the VEGA spacecraft was devoted to the Halley module, and half to the Venus lander package. The total scientific payload weight was 144.3 kg.

The Venus package consisted of a sphere 240 cm in diameter, which separated two days before arrival at Venus and entered the planet's atmosphere on an inclined path, without active maneuvers, as was done on previous Venera missions. The lander probe was identical to those of Venera 9 through 14 and similarly had two objectives, the study of the atmosphere and the study of the superficial crust. In addition to temperature and pressure measuring instruments, the descent probe carried a UV spectrometer for measurement of minor atmospheric constituents, an instrument dedicated to measurement of the concentration of H2O, and other instruments for determination of the chemical composition of the condensed phase: a gas-phase chromatograph; an X-ray spectrometer observing the fluorescence of grains or drops; and a mass spectrograph measuring the chemical composition of the grains or drops. The X-ray spectrometer separated the grains according to their sizes using a laser imaging device, while the mass spectrograph separated them according to their sizes using an aerodynamical inertial separator. After landing, a small surface sample near the probe was to be analyzed by gamma spectroscopy and X-ray fluorescence. The UV spectrometer, the mass spectrograph, and the pressure- and temperature-measuring instruments were developed in cooperation between French and Soviet investigators.

In addition to the lander probe, a constant-pressure instrumented balloon aerostat was deployed after entry into the atmosphere from the upper heat protection hemisphere. It floated at approximately 50 km altitude in the middle, most active layer of the Venus three-tiered cloud system. Data from the balloon instruments were transmitted directly to Earth for the 47-hr lifetime of the mission.

Additional information

NSSDC's Master Catalog: Information about the Vega 1 mission.

Acknowledgement

Soviet Academy of Sciences (U.S.S.R)

Contact

	Role	Person
1.	General contact	Mr. Artem Ivankov
2.	Metadata contact	Jan Merka

Release date

2009-05-20 20:00:12

Observatory group

Vega

Location

Region: Comet; Heliosphere.Inner; Venus

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Data Description

Table of Contents

Numerical Data Product: Vega 1 Magnetic Field Data (0.1 s), Halley Comet

Parameters

Parameter #1

Parameter #2

Parameter #3

Parameter #4

Parameter #5

Parameter #6

Parameter #7

Parameter #8

Parameter #9

Parameter #10

Parameter #11

Parameter #12

Parameter #13

Parameter #14

Instrument: Magnetometer

Observatory: Vega 1

Person: Valery G. Petrov

Person: Dr. Valery A. Styazhkin

Person: Dr. Natalia E. Papitashvili

Person: Jan Merka

Person: Dr. Edwin J. Grayzeck, Jr.

Person: Dr. Edwin V. Bell, II

Person: Prof. Willi W. Riedler

Person: Dr. N. A. Stjazhkin

Person: Dr. Ye. G. Yeroshenko

Person: Dr. Konrad Schwingenschuh

Person: Dr. R. Schmidt

Person: Mr. Artem Ivankov

Repository: NSSDC

	Role	Person
1.	General contact	Dr. Edwin J. Grayzeck, Jr.
2.	General contact	Dr. Edwin V. Bell, II