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OUR WORK

The Mechanical Systems Division is involved in just about every flight project at Goddard as well as numerous proposals for future missions and technology development activities. Missions supported by the MSD cover everything from critical Earth Science missions monitoring global change, to Space Science explorations of the Sun and planets in our solar system, to missions answering questions about the origin and fate of the universe.

Our engineers are involved in the entire life cycle of a project from the early preliminary design stages, through detailed design and analysis, integration and testing, and providing support at launch sites. We support projects launched on everything from small sounding rockets, to the largest of launch vehicles as well as missions launched on balloons and science payloads attached to research aircraft.

The breadth and variety of the projects supported by MSD make it a challenging, interesting and exciting place to work. The links below show a small snapshot of some of our projects:

Sample of Current and recent Projects

Global Precipitation Measurement (GPM)

GPM

 - Providing comprehensive measurement of precipitation around the globe, GPM will improve scientific understanding of the earth system and its response to natural and human-induced changes. This will enable improved prediction of climate, weather, and natural hazards for present and future generations. GPM was launched in February, 2014

Visit: http://gpm.gsfc.nasa.gov/

 

Magnetospheric Multiscale (MMS) Mission  

 A formation of 4 spacecraft that will precisely measure the magnetic environment around the earth to help our understanding of how those fields interact and effect “space weather.”  MMS is scheduled to launch in March, 2015.

Visit: http://stp.gsfc.nasa.gov/missions/mms/mms.htm

MMS

 

International Space Station Cosmic Ray Energetics And Mass (ISS-CREAM)

 

Building on the success of the Cosmic Ray Energetics And Mass (CREAM) balloon flights, the instrument is being transformed for accommodation on the International Space Station (ISS). The ISS-CREAM mission is planned to launch on a Space-X Falcon 9 from Cape Canaveral in mid-2017 as a secondary payload on an ISS resupply mission.

Visit: http://cosmicray.umd.edu/iss-cream/

ISS CREAM

 

Astro-H

 

ASTRO-H is a powerful orbiting observatory being developed by the Japan Aerospace Exploration Agency (JAXA) for studying extremely energetic processes in the universe. NASA and the JAXA/Institute of Space and Astronautical Science have teamed up to develop a high resolution “Soft X-Ray Spectrometer” (SXS) for ASTRO-H.  SXS will observe matter in extreme gravitational fields obtaining time-resolved spectra from material approaching the event horizon of a black hole.

Visit: http://heasarc.gsfc.nasa.gov/docs/astroh/

ASTRO-H

 

Neutron star Interior Composition ExploreR  

NICER is an International Space Station (ISS) payload dedicated to the study of neutron stars.  NICER will look at the extraordinary gravitational, electromagnetic, and nuclear-physics environments embodied by neutron stars. NICER will explore the exotic states of matter inside these stars, where density and pressure are higher than in atomic nuclei, confronting theory with unique observational constraints

Visit: http://heasarc.gsfc.nasa.gov/docs/nicer/

NEUTRON STAR INTERIOR COMPOSTION EXPLOYER

 

Joint Polar Satellite System (JPSS)  

The Joint Polar Satellite System (JPSS) is the Nation's next generation polar-orbiting operational environmental satellite system. JPSS is a collaborative program between the National Oceanic and Atmospheric Administration (NOAA) and its acquisition agent, National Aeronautics and Space Administration (NASA). This interagency effort (JPSS) is the latest generation of U.S. polar-orbiting, non-geosynchronous environmental satellites.

Visit: http://www.jpss.noaa.gov/

JPSS

 

 Ice, Cloud and land Elevation Satellite-2 (ICESat-2)  

ICESat-2, slated for launch in 2017, will continue the important observations of ice-sheet elevation change, sea-ice freeboard, and vegetation canopy height begun by ICESat in 2003. Together, these datasets will allow for continent-wide estimates in the change in volume of the Greenland and Antarctic ice sheets over a 15-year period, and long-term trend analysis of sea-ice thickness.

Visit: http://icesat.gsfc.nasa.gov/icesat2/

ICESAT-II

 

Origins Spectral Interpretation Resource Identification and Security-Regolith Explorer (OSIRIS-REx)  

OSIRIS-REx seeks answers to questions that are central to the human experience: Where did we come from? What is our destiny? OSIRIS-REx is going to Bennu, a carbon-rich asteroid that records the earliest history of our Solar System, and bringing a piece of it back to Earth. Goddard is also building the OSIRIS-REx Visible and Infrared Spectrometer (OVIRS) instrument.

Visit: http://www.asteroidmission.org/

OSIRIS-REX

 

James Webb Space Telescope (JWST)  

As large as a tennis court and sitting 1.5 million Km from earth, JWST will look back in time to the beginnings of the universe.  Using the 6.5 m diameter telescope, the instruments on JWST will be able to see some of the most distant and faintest astronomical objects to answer questions about the formation of galaxies and solar systems.

Visit: http://www.jwst.nasa.gov/

JWST

 

Wide-Field Infrared Survey Telescope (WFIRST)  

WFIRST Astrophysics Focused Telescope Assets (AFTA) design of the mission makes use of an existing 2.4m telescope to enhance sensitivity and imaging performance. WFIRST-AFTA will settle essential questions in both exoplanet and dark energy research and will advance topics ranging from galaxy evolution to the study of objects within the Galaxy and within the Solar System.

Visit: http://wfirst.gsfc.nasa.gov/

WFIRST

 

Dellingr  

Dellingr is a 3-axis stabilized 6U CubeSat with an Ion-Neutral Mass Spectrometer (INMS) and three science-grade magnetometers (Dagr) intended to increase our understanding of the role of solar wind energy deposition on composition changes in Earth’s upper atmosphere. Launch is scheduled to take place on June 1, 2017 from the International Space Station.

Visit: https://gsfctechnology.gsfc.nasa.gov/OuterBudge.html

Dellinger

 

Airborne Science Program (ASP)  

GSFC operates a small fleet of aircraft out of the Wallops Flight Facility that support NASA’s Airborne Science Program. These aircraft, which include a P-3 Orion, two C-130 Hercules, two C-23 Sherpas, a B-200 Kingair and a UH-1 Huey, are constantly being modified and reconfigured to accommodate the latest in earth sensing science instrumentation. Aircraft missions deploy around the world, including both poles, and support satellite calibration/validation, new sensor development, process studies, and foster the development of next generation scientists and engineers.

Visit: https://airbornescience.nasa.gov/

ASP

 

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    Goddard Space Flight Center
    MSD/Code 540
    8800 Greenbelt Road
    Greenbelt, Maryland 20771