MESSENGER MAG Time-Averaged Calibrated MSO Coordinates Science Data
Collection
Short Name:
MESS-MAG-MSO-AVG
Date:
06 Jan 2023 00:01:33
Publisher:
Planetary Data System
Description:
Time-averaged spacecraft position and calibrated 3-axis magnetic
field samples in Mercury Solar Orbital (MSO) coordinates. The data are
tagged with latency corrected UTC and MET time stamps at the center of
each interval. The MSO RDR is derived from the Science CDR for this
coordinate system with time averages computed within 1, 5, 10, and 60
s intervals.
MESSENGER MAG Time-Averaged Calibrated RTN Coordinates Science Data
Collection
Short Name:
MESS-MAG-RTN-AVG
Date:
16 Dec 2022 17:17:45
Publisher:
Planetary Data System
Description:
Time-averaged spacecraft position and calibrated 3-axis magnetic
field samples in Radial-Tangential-Normal (RTN) coordinates. The
spacecraft postion is given by the radial distance from Sun center,
northward latitude above the instantaneous ecliptic plane, and azimuth
angle of the spacecraft in the instantaneous ecliptic plane with
respect to the Earth-Sun line, positive in direction of the Earth's
orbital motion. The data are tagged with latency corrected UTC and MET
time stamps at the center of each interval. The RTN RDR is derived
from the Science CDR for this coordinate system with time averages
computed within 1, 5, 10, and 60 s intervals.
MESSENGER MAG Time-Averaged Calibrated Spacecraft Coordinates Science
Data Collection
Short Name:
MESS-MAG-SC-AVG
Date:
16 Dec 2022 17:31:44
Publisher:
Planetary Data System
Description:
Time-averaged calibrated 3-axis magnetic field samples in sensor and
spacecraft coordinates. The data are tagged with latency corrected UTC
and MET time stamps at the center of each interval. The SC RDR is
derived from the Science CDR for this coordinate system with time
averages computed within 1 s intervals.
MESSENGER MAG Time-Averaged Calibrated VSO Coordinates Science Data
Collection
Short Name:
MESS-MAG-VSO-AVG
Date:
15 Dec 2022 19:26:44
Publisher:
Planetary Data System
Description:
Time-averaged spacecraft position and calibrated 3-axis magnetic
field samples in Venus Solar Orbital (VSO) coordinates. The data are
tagged with latency corrected UTC and MET time stamps at the center of
each interval. The VSO RDR is derived from the Science CDR for this
coordinate system with time averages computed within 1, 5, 10, and 60
s intervals.
Predictions of stellar occultations by the main planetary satellites
Short Name:
voccdb.epn_core
Date:
26 Feb 2025 14:03:55
Publisher:
Paris Astronomical Data Centre
Description:
The VOccDB database provides prediction and parameters of stellar
occultations by the main planetary satellites. Observations of a
stellar occultations help to better determine the size and the shape
of the occulting body, as well as its astrometric position at the
milli-arcsecond level precision. Only the main moons of giant planets
Jupiter, Saturn, Uranus and Neptune are considered in the event
prediction database. Predictions are provided over period 2023-2032,
up to visual magnitude 12 for the biggest satellites, and magnitude 14
for other satellites. For each stellar occultation event prediction,
the database provides circumstances and observational data, date and
timing of the occultation, star position and magnitude, excepted
duration, etc.
"The growth of the Tharsis volcanic complex on Mars during
Noachian/Hesperian era induced a reorientation of the spin axis of the
planet (true polar wander). This service gives access to a map of Mars
topography before Tharsis formation (Early Noachian) and a map of Mars
topography before true polar wander (Late Noachian/Early Esperian),
from the model described in Bouley, S., Baratoux, D., Matsuyama, I. et
al. Late Tharsis formation and implications for early Mars. Nature
531, 344â347 (2016). https://doi.org/10.1038/nature17171 ."
