Reports
Showing 1 to 24 of 27.
2023 Goddard Year in Review
2024.01.29
The Goddard Office of Communications is pleased to announce the release of Goddard 2023 Year in Review (replaces the annual report). The year in review comprises a video highlighting significant achievements as well as a digital accompaniment that provides an overview of Goddard’s sites, lines of business, workforce details, financial health, and more – the latter of which is available on Goddard’s website with an interactive version on Issuu.com.
Download 2023 Goddard Annual Report
2021 Atmospheric Technical Highlights
2023.01.23
A report summarizing Earth atmospheric science highlights and communication/outreach accomplishments.
Download 2021 Atmospheric Research Technical Highlights (PDF, 1.8 MB)
2022 Goddard Annual Report
2022.12.15
Published by Goddard's Office of Communications, the annual report is a summary of Goddard's 2022 accomplishments and plans for the future.
2020 Atmospheric Technical Highlights Report
2022.02.01
A report summarizing Earth atmospheric science highlights and communication/outreach accomplishments.
Download 2020 Atmospheric Research Technical Highlights Report (PDF, 2.6MB)
2019 Atmospheric Research Technical Highlights
2021.06.24
A report summarizing Earth atmospheric science highlights and communication/outreach accomplishments.
Download 2019 Atmospheric Research Technical Highlights (PDF, 17.9 MB)
2018 Atmospheric Research Technical Highlights
2019.08.16
A report summarizing Earth atmospheric science highlights and communication/outreach accomplishments.
Download 2018 Atmospheric Research Technical Highlights (PDF, 11.6 MB)
2017 Atmospheric Research Technical Highlights
2018.06.20
A report summarizing Earth atmospheric science highlights and communication/outreach accomplishments.
Download 2017 Atmospheric Research Technical Highlights (PDF, 9 MB)
2016 Atmospheric Research Technical Highlights
2017.03.15
A report summarizing Earth atmospheric science highlights and communication/outreach accomplishments.
Download 2016 Atmospheric Research Technical Highlights (PDF, 22.6 MB)
2014 Atmospheric Research Technical Highlights
2015.03.30
A report summarizing Earth atmospheric science highlights and communication/outreach accomplishments.
Download 2014 Atmospheric Research Technical Highlights (PDF, 10.6 MB)
2013 Atmospheric Research Technical Highlights
2014.05.01
A report summarizing Earth atmospheric science highlights and communication/outreach accomplishments.
Download 2013 Atmospheric Research Technical Highlights (PDF, 5 MB)
GPM Core Observatory (2014)
2014.01.01
The Global Precipitation Measurement (GPM) mission is an international partnership co-led by NASA and the Japan Aerospace Exploration Agency (JAXA). The mission centers on the deployment of the GPM Core Observatory and consists of a network, or constellation, of additional satellites that together will provide next-generation global observations of precipitation from space. In this brochure you will learn about the specifics of the GPM Core Observatory and its role in the GPM mission.
2012 Atmospheric Research Technical Highlights
2013.07.01
A report summarizing Earth atmospheric science highlights and communication/outreach accomplishments.
Download 2012 Atmospheric Research Technical Highlights (PDF, 5.9 MB)
2011 Atmospheric Research Technical Highlights
2012.08.30
A report summarizing Earth atmospheric science highlights and communication/outreach accomplishments.
Download 2011 Atmospheric Research Technical Highlights (PDF, 4.1 MB)
2010 Atmospheric Research Technical Highlights
2011.07.01
A report summarizing Earth atmospheric science highlights and communication/outreach accomplishments.
Download 2010 Atmospheric Research Technical Highlights (PDF, 5.5 MB)
2011 Atmospheres Instrument Systems Report
2011.03.01
Studies of the atmosphere require a comprehensive set of observations, relying on instruments flown on spacecraft, aircraft, and balloons, as well as those deployed on the surface. The Earth Sciences Division has an active program of instrument systems development that provides: 1) information leading to a basic understanding of atmospheric processes and their relationships with the Earth's climate system, 2) prototypes for future flight instruments, 3) instruments to serve as calibration references for satellite mission planning and 4) instruments for future field validation campaigns that support ongoing space missions.
Download 2011 Atmospheres Instrument Systems Report (PDF, 2.4 MB)
2009 Atmospheric Research Technical Highlights
2010.06.30
A report summarizing Earth atmospheric science highlights and communication/outreach accomplishments.
Download 2009 Atmospheric Research Technical Highlights (PDF, 22.3 MB)
2008 Atmospheric Research Technical Highlights
2009.08.01
A report summarizing Earth atmospheric science highlights and communication/outreach accomplishments.
Download 2008 Atmospheric Research Technical Highlights (PDF, 18.6 MB)
2007 Atmospheric Research Technical Highlights
2008.05.15
A report summarizing Earth atmospheric science highlights and communication/outreach accomplishments.
Download 2007 Atmospheric Research Technical Highlights (PDF, 17.1 MB)
2006 Atmospheric Research Technical Highlights
2007.04.01
A report summarizing Earth atmospheric science highlights and communication/outreach accomplishments.
Download 2006 Atmospheric Research Technical Highlights (PDF, 39.4 MB)
2005 Atmospheric Research Technical Highlights
2005.09.01
A report summarizing Earth atmospheric science highlights and communication/outreach accomplishments.
Download 2005 Atmospheric Research Technical Highlights (PDF, 17.2 MB)
2005 Laboratory for Atmospheres Instrument Systems Report
2005.07.29
Studies of the atmospheres of our solar system's planets including our own require a comprehensive set of observations, relying on instruments on spacecraft, aircraft, balloons, and on the surface. These instrument systems perform one or both of the following: 1) provide information leading to a basic understanding of the relationship between atmospheric systems and processes, and 2) serve as calibration references for satellite instrument validation. Laboratory personnel define requirements, conceive concepts, and develop instrument systems for spaceflight missions, and for balloon, aircraft, and ground-based observations. Balloon and airborne platforms facilitate regional measurements of precipitation, cloud systems, and ozone from high-altitude vantage points, but still within the atmosphere. Such platforms serve as stepping-stones in the development of space instruments. Satellites provide nearly global coverage of the Earth with spatial resolutions and repetition rates that vary from system to system. The products of atmospheric remote sensing are invaluable for research associated with water vapor, ozone, trace gases, aerosol particles, clouds, precipitation, and the radiative and dynamic processes that affect the climate of the Earth. These parameters also provide the basic information needed to develop models of global atmospheric processes and weather and climate prediction. Laboratory scientists also participate in the design of data processing algorithms, calibration techniques, and the data processing systems.
2004 Atmospheric Research Technical Highlights
2005.04.30
A report summarizing Earth atmospheric science highlights and communication/outreach accomplishments.
Download 2004 Atmospheric Research Technical Highlights (PDF, 43.2 MB)
Atmospheres Brochure
2004.10.01
Inside this brochure you'll find descriptions of our work scope, our people and facilities, our place in NASA's mission, and some of our accomplishments. It is intended to provide a flavor of what the group is all about. This document is aimed at a wide spectrum of potential readers including managers and colleagues within NASA, scientists outside the agency, graduate students in the atmospheric sciences, and members of the general public. Atmospheres' mission is the advancement of knowledge and understanding of the atmospheres of the Earth and other planets. Scientists conduct basic research in atmospheric sciences from the vantage point of space observations and related computer modeling. We also play an active role in developing and calibrating new and improved instruments for spaceflight and field campaigns. We enthusiastically invite you to take a glimpse into the work done by so many dedicated individuals.
Download Atmospheres Brochure (PDF, 752 KB)
Moderate-Resolution Imaging Spectroradiometer (MODIS)
2002.03.05
The first EOS satellite, called Terra, was launched on December 18, 1999, carrying five remote sensors. The most comprehensive EOS sensor is MODIS, the Moderate Resolution Imaging Spectroradiometer. MODIS offers a unique combination of features: it detects a wide spectral range of electromagnetic energy; it takes measurements at three spatial resolutions (levels of detail); it takes measurements all day, every day; and it has a wide field of view.
Download MODIS brochure.pdf
Showing 1 to 24 of 27.