SOFIA

Stratospheric Observatory For Infrared Astronomy

past Mission

Type

Airborne Science

Dates

2014-2022

Target

Solar System, Universe

Objective

Study the solar system and beyond in ways impossible for ground-based telescopes

A modified Boeing 747SP aircraft that carried a telescope into the stratosphere, allowing astronomers to observe the infrared universe above 99 percent of Earth's infrared-blocking atmosphere

The Flying Observatory

SOFIA, the Stratospheric Observatory for Infrared Astronomy, was a Boeing 747SP aircraft modified to carry a 2.7-meter (106-inch) reflecting telescope (with an effective diameter of 2.5 meters or 100 inches). Flying into the stratosphere at 38,000-45,000 feet put SOFIA above 99 percent of Earth’s infrared-blocking atmosphere, allowing astronomers to study the solar system and beyond in ways that are not possible with ground-based telescopes. SOFIA was made possible through a partnership between NASA and the German Space Agency at DLR.

SOFIA soars over the snow-covered Sierra Nevada mountains with its telescope door open during a test flight.
SOFIA soars over the snow-covered Sierra Nevada mountains with its telescope door open during a test flight. SOFIA is a modified Boeing 747SP aircraft.
NASA/Jim Ross

The observatory’s mobility allowed researchers to observe from almost anywhere in the world, and enabled studies of transient events that often take place over oceans, where there are no telescopes. For example, astronomers on SOFIA studied eclipse-like events of Pluto, Saturn’s moon Titan, and Kuiper Belt Object MU69, the next flyby target for NASA’s New Horizons spacecraft, to study the objects’ atmospheres and surroundings.

SOFIA and the Infrared Universe

SOFIA was designed to observe the infrared universe. Many objects in space emit almost all their energy at infrared wavelengths and are often invisible when observed with visible light. In other cases, celestial clouds of gas and dust block the light emitted by more distant objects, but infrared energy pierces through these clouds. In both cases, the only way to learn about these objects is to study the infrared light they emit.

During 10-hour, overnight flights, SOFIA observed the solar system and beyond at mid- and far-infrared wavelengths, gathering data to study:

Visible and infrared images of the Horsehead Nebula. The infrared shows carbon monoxide in red, carbon atoms and ions in green.
Visible (left) and infrared (right) images of the Horsehead Nebula. The dust that forms the Horsehead blocks visible light but glows brightly in the infrared. The infrared image, taken by SOFIA’s upGREAT instrument, shows carbon monoxide molecules sheltered in the dense nebula (red area) and carbon atoms and ions that have been affected by the radiation from nearby stars (green area).
Left: Dylan O’Donnell; Right: NASA/SOFIA/J. Bally et. al

SOFIA's telescope instruments — cameras, spectrometers, and polarimeters — operated in the near-, mid- and far-infrared wavelengths, each suited to studying a particular phenomenon. Spectrometers spread light into its component colors, in the same way that a prism spreads visible light into a rainbow, to reveal the chemical fingerprints of celestial molecules and atoms. Polarimeters are sensitive to the effect magnetic fields have on dust in and around celestial objects, allowing astronomers to learn how magnetic fields affect the birth of stars and other objects.

Unlike space-based telescopes, SOFIA landed after each flight, so its instruments could be exchanged, serviced or upgraded to harness new technologies. Because these new instruments could be tested and adjusted, SOFIA was able to explore new frontiers in the solar system and beyond and served as a testbed for technology that may one day fly in space.

For a gallery of SOFIA science images, click here.

The aircraft was operated and maintained by NASA’s Armstrong Flight Research Center Building 703, in Palmdale, California. NASA's Ames Research Center in California's Silicon Valley managed SOFIA's program, science and mission operations in cooperation with the Universities Space Research Association (USRA; Columbia, Maryland) and the German SOFIA Institute (DSI; University of Stuttgart).

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