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MMS-3

ResourceID
spase://CNES/Observatory/CDPP-Archive/MMS-3

Description

MMS Mission - Overview and Goals

The Magnetospheric MultiScale mission (MMS) was launched by NASA on March 12, 2015.
MMS consists of four identical spacecraft that orbit around Earth through the dynamic magnetic system surrounding our planet.
MMS investigates how the Sun's and Earth's magnetic fields connect and disconnect, explosively transferring energy from one to the other in a process that is important at the Sun, other planets, and everywhere in the universe, known as magnetic reconnection.
For the first time, MMS reveals the small-scale three-dimensional structure and dynamics of the elusively thin and fast-moving electron diffusion region.
It does this in both of the key reconnection regions near Earth where the most energetic events originate.
The four identically instrumented MMS spacecraft fly in an adjustable pyramid-like formation that enables them to observe the three-dimensional structure of magnetic reconnection.
This enables them to determine whether reconnection occur in an isolated locale everywhere within a larger region at once, or traveling across space.
MMS sensors will measure charged particle velocities, as well as electric and magnetic fields with unprecedented (milliseconds) time resolution and accuracy needed to capture the elusively thin and fast-moving electron diffusion region.
MMS probes reconnection of solar and terrestrial magnetic fields in the dayside and nightside of Earth's magnetosphere the only natural laboratory where it can be directly observed by spacecraft.
So the primary focus for the MMS science team is to study a little-understood phenomenon called magnetic reconnection.
Magnetic reconnection is a fundamental process that happens in space, which powers a wide variety of events from giant explosions on the sun to green-blue auroras shimmering in the night sky. By observing magnetic reconnection in nature, MMS provides access to predictive knowledge of a universal process that is the final governor of space weather, affecting modern technological systems such as communications networks, GPS navigation, and electrical power grids.
The aim is that MMS establishes knowledge, methods and technologies applicable to future space weather missions and the future growth and development of space weather forecasting.

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Details

Version:2.4.0

Observatory

ResourceID
spase://CNES/Observatory/CDPP-Archive/MMS-3
ResourceHeader
ResourceName
MMS-3
ReleaseDate
2022-07-28 11:01:23Z
Description

MMS Mission - Overview and Goals

The Magnetospheric MultiScale mission (MMS) was launched by NASA on March 12, 2015.
MMS consists of four identical spacecraft that orbit around Earth through the dynamic magnetic system surrounding our planet.
MMS investigates how the Sun's and Earth's magnetic fields connect and disconnect, explosively transferring energy from one to the other in a process that is important at the Sun, other planets, and everywhere in the universe, known as magnetic reconnection.
For the first time, MMS reveals the small-scale three-dimensional structure and dynamics of the elusively thin and fast-moving electron diffusion region.
It does this in both of the key reconnection regions near Earth where the most energetic events originate.
The four identically instrumented MMS spacecraft fly in an adjustable pyramid-like formation that enables them to observe the three-dimensional structure of magnetic reconnection.
This enables them to determine whether reconnection occur in an isolated locale everywhere within a larger region at once, or traveling across space.
MMS sensors will measure charged particle velocities, as well as electric and magnetic fields with unprecedented (milliseconds) time resolution and accuracy needed to capture the elusively thin and fast-moving electron diffusion region.
MMS probes reconnection of solar and terrestrial magnetic fields in the dayside and nightside of Earth's magnetosphere the only natural laboratory where it can be directly observed by spacecraft.
So the primary focus for the MMS science team is to study a little-understood phenomenon called magnetic reconnection.
Magnetic reconnection is a fundamental process that happens in space, which powers a wide variety of events from giant explosions on the sun to green-blue auroras shimmering in the night sky. By observing magnetic reconnection in nature, MMS provides access to predictive knowledge of a universal process that is the final governor of space weather, affecting modern technological systems such as communications networks, GPS navigation, and electrical power grids.
The aim is that MMS establishes knowledge, methods and technologies applicable to future space weather missions and the future growth and development of space weather forecasting.

Contacts
RolePersonStartDateStopDateNote
1.ProjectScientistspase://CNES/Person/CDPP-Archive/James.L.Burch
ObservatoryGroupID
Location
ObservatoryRegion
Earth.Magnetosphere
OperatingSpan
StartDate
2015-03-12 00:00:00Z