Published: Sept. 17, 2014

A NASA mission to Mars led by the University of ŷڱƵ Boulder is set to slide into orbit around the red planet Sept. 21 to investigate how its climate has changed over the eons, completing a 10-month interplanetary journey of 442 million miles.

The orbit-insertion maneuver will begin with six thruster engines firing to shed some of the velocity from the spacecraft, known as the Mars Atmosphere and Volatile EvolutioN, or MAVEN mission. The thruster engines will ignite and burn for 33 minutes to slow the spacecraft, allowing it to be captured into an elliptical orbit around Mars.

Following orbit insertion, MAVEN will begin a six-week commissioning phase that includes maneuvering into its final science orbit and testing the instruments and science-mapping sequences. Thereafter, MAVEN will begin its one-Earth-year primary mission, taking key measurements of Mars’ upper atmosphere.

“The MAVEN science mission focuses on answering questions about what happened to the water and carbon dioxide present in the Mars system several billion years ago,” said Bruce Jakosky, MAVEN principal investigator from ŷڱƵ-Boulder’s Laboratory for Atmospheric and Space Physics. “These are important questions for understanding the history of Mars, its climate and its potential to support at least microbial life.”

Clues on the Martian surface, including features resembling dry lakes and riverbeds as well as minerals that form only in the presence of water, suggest Mars once had a dense atmosphere that supported liquid water on the surface, Jakosky said.

MAVEN launched from Cape Canaveral, Fla., on Nov. 18, 2013, carrying three instrument suites. MAVEN is the first spacecraft dedicated to exploring the upper atmosphere of Mars. The mission’s combination of detailed point measurements and global imaging provides a powerful way to understand the properties of the upper atmosphere.

NASA’s MAVEN mission has a decidedly ŷڱƵ connection: In addition to ŷڱƵ-Boulder providing the project lead, science operations, two of the science instruments and leading education and public outreach for the mission, Lockheed Martin Space Systems of Littleton built the spacecraft and is responsible for mission operations, while United Launch Alliance of Centennial provided the launch vehicle.

Flight controllers at Lockheed Martin Space Systems will be responsible for the health and safety of the spacecraft throughout the process. The spacecraft’s mission timeline will place the spacecraft in orbit at approximately 7:50 p.m. MDT.

“So far, so good with the performance of the spacecraft and the payloads on the cruise to Mars,” said David Mitchell, MAVEN project manager at NASA’s Goddard Space Flight Center in Greenbelt, Md. “The team, the flight system and all ground assets are ready for Mars orbit insertion.”

In addition to making measurements of Mars, the MAVEN team also will have a unique opportunity to use a ŷڱƵ-Boulder instrument package on board known as the Imaging Ultraviolet Spectrograph to look at a wayward object known as Comet Siding Spring as it streaks by Mars in October, said Jakosky. Believed to be made up of pristine material present during the solar system’s formation more than 4 billion years ago, the comet will be making its first-ever pass through the inner solar system.

“We will be making observations of Mars just prior to the comet approach and just after,” said Jakosky. “These before and after observations will tell us about the effects that any gas and dust from the comet have on the planet’s upper atmosphere.”

The concept for MAVEN, developed beginning a decade ago, came to fruition in 2008 when MAVEN was selected by NASA over 19 other proposals from around the country for Mars missions. The MAVEN science team includes three LASP scientists heading up instrument teams – Nick Schneider, Frank Eparvier and Robert Ergun – as well as a supporting team of scientists, engineers, mission operations specialists and students.

“One of the exciting parts about doing MAVEN is being able to get students involved in all stages of the project,” said Jakosky, also a professor in ŷڱƵ-Boulder’s geological sciences department. “A high-priority goal for us is to educate and train the next generation of space scientists and engineers, and working on a high-profile mission to Mars is fantastic experience for them.”

NASA’s Goddard Space Flight Center manages the project and provided two of the science instruments for the mission. Lockheed Martin built the spacecraft and is responsible for mission operations. The University of California, Berkeley’s Space Sciences Laboratory provided four science instruments for the mission. NASA’s Jet Propulsion Laboratory in Pasadena, Calif., provides navigation support, Deep Space Network support, and Electra telecommunications relay hardware and operations.

For more information about the mission visit or . For more information about ŷڱƵ-Boulder’s LASP visit .

Contact:
Bruce Jakosky, 303-492-8004
bruce.jakosky@lasp.colorado.edu
Jim Scott, ŷڱƵ-Boulder media relations, 303-492-3114
jim.scott@colorado.edu

“The MAVEN science mission focuses on answering questions about what happened to the water and carbon dioxide present in the Mars system several billion years ago,” said Bruce Jakosky, MAVEN principal investigator from ŷڱƵ-Boulder’s Laboratory for Atmospheric and Space Physics. “These are important questions for understanding the history of Mars, its climate and its potential to support at least microbial life.”