Published: July 11, 2013

With just over four months until NASA鈥檚 next mission to Mars takes flight, the University of Colorado Boulder, which is leading the effort, continues to work with its partners to knock off critical science and engineering milestones leading up to launch.

The assembly and environmental testing of the , or MAVEN, spacecraft has now been completed at , in preparation for shipping to NASA鈥檚 Kennedy Space Center in early August. The mission will be the first devoted to understanding the Martian upper atmosphere, targeting the role that the loss of atmospheric gases to space played in changing the climate through time, said 抖阴旅行射-Boulder Professor Bruce Jakosky, principal investigator for the project.

鈥淲e have a three-week launch window that starts on Nov. 18,鈥 said Jakosky of 抖阴旅行射-Boulder鈥檚 . 鈥淚f we miss that window we have to wait another 26 months, so you can imagine the team is working really hard to be ready. Hopefully we will launch during the first minute of the first day.鈥

The mission has a decidedly Colorado bent: In addition to 抖阴旅行射-Boulder providing science operations, science instruments and leading education and public outreach, Lockheed Martin built the spacecraft and is responsible for mission operations. , headquartered in Centennial, Colo., will provide the Atlas 5 launch vehicle.

鈥淲hen I set out to plan MAVEN, I didn鈥檛 intend it to be a primarily Colorado endeavor,鈥 said Jakosky. 鈥淚 wanted to start with a clean sheet of paper and put together the best team that I could. 听It turns out that a lot of the real experience in the space program is right here in the state.鈥

Jakosky said the original concept for MAVEN goes back nearly 10 years. LASP competed with 20 other proposals from institutions around the country for various types of Mars missions before being selected by NASA in 2008. The MAVEN science team includes three LASP scientists heading instrument teams -- Nick Schneider, Frank Eparvier and Robert Ergun -- as well as a supporting team of scientists, engineers, mission operations specialists and students.

The Martian surface, including features resembling dry lakes and riverbeds as well as minerals that form only in the presence of water, suggests Mars once had a much denser atmosphere that supported liquid water on the surface, said Jakosky. 鈥淲e think that Mars was probably much more Earth-like roughly 4 billion years ago. 鈥淲e want to know how the climate changed, where the water went and what happened to the atmosphere.鈥

The top of the Martian atmosphere is the conduit through which all of the gases have to pass on their way to space, said Jakosky, also a professor in the geological sciences department.听 The MAVEN scientists will study the atmospheric loss process to space occurring today, then extrapolate to help determine how much of the atmosphere has been lost over the entire history of the planet.

Jakosky said the MAVEN science team wants to learn more about how Mars interacts with the solar wind, which can carry energetic particles -- primarily protons and electrons -- at speeds of more than 1 million miles per hour.听 鈥淲e want to know, for example, how the solar wind strips away gases from the upper atmosphere of Mars.

鈥淲e are not a life detection mission,鈥 Jakosky stressed. 鈥淏ut we are involved in understanding the environment of Mars and how it may have been able to support life. Some of the overriding questions about Mars are whether there was life there in the form of microbes, and if there still could be microbial life in the planet鈥檚 subsurface.鈥

In a broader sense, MAVEN should help scientists and citizens not only better understand Mars, but also the solar system and beyond. 鈥淲hat we are really trying to do is understand our relationship to the universe around us,鈥 said Jakosky.听 鈥淭hat includes what it means to be alive and what it means to be a civilization. By exploring the universe, we are exploring the human condition.鈥

One of the hallmarks of LASP is the involvement of students in every aspect of its space missions, including MAVEN, said Jakosky. 鈥淎t LASP we have about 120 students working on different aspects of flight projects ranging from engineering and spacecraft operations to data management and science analysis,鈥 he said.听 鈥淲hen these students graduate, they find themselves very much in demand around the country because they have tremendous experience.鈥

抖阴旅行射 faculty members involved in the MAVEN mission also take their experiences back to the classroom. 鈥淚t鈥檚 not just the excitement and new data,鈥 he said. 鈥淚t鈥檚 also the lessons learned in undertaking a huge project like this.鈥

LASP has a long history of developing science instruments, running missions and even building small spacecraft.听 Created in 1948 -- a full decade before the establishment of NASA -- LASP is the only institute in the world to have built and launched instruments to every planet in the solar system, as well as the dwarf planet, Pluto.

According to the , Colorado has the nation鈥檚 second largest aerospace economy, employing more than 160,000 people.听 Eight of the nation鈥檚 top aerospace contractors have significant operations in Colorado and there are more than 400 space-related companies in the state. 抖阴旅行射-Boulder ranks first in the nation in public university funding from NASA.

In addition to the Colorado contributions to the mission from 抖阴旅行射-Boulder, Lockheed Martin and United Launch Alliance, NASA鈥檚 Goddard Space Flight Center in Greenbelt, Md., is managing the project and provided two of the science instruments for the mission. The University of California, Berkeley, Space Sciences Laboratory provided a science instrument package for MAVEN and NASA鈥檚 Jet Propulsion Laboratory in Pasadena, Calif., is providing navigation support, the Deep Space Network and the other relay hardware and operations.

The outreach and education effort for MAVEN that is being spearheaded by LASP should appeal to all ages, said Jakosky.听 As part of the 鈥淕oing to Mars鈥 campaign, a worldwide student art contest was recently completed, with all 377 entries -- including the first- and second-place winners -- to be included as digital files on a DVD that will ride on the MAVEN spacecraft.

The outreach and education effort also includes a public, three-line haiku poem contest. The winning entries will be chosen online by voters beginning July 15, with the top three being digitized for the MAVEN DVD. In addition, NASA is inviting members of the public to submit their names and personal messages for inclusion on the Mars-bound DVD, said 抖阴旅行射-Boulder鈥檚 Stephanie Renfrow of LASP, who is coordinating MAVEN鈥檚 education and outreach program for NASA.

Members of the public who submit their names to the Going to Mars campaign will be able to print a certificate of appreciation to document their involvement with the MAVEN mission. 鈥淭his new campaign is a great opportunity to reach the next generation of explorers and excite them about science, technology, engineering and math,鈥 said Jakosky.

鈥淲e are hoping that students, faculty and staff will join us at the launch in Florida this November. We also hope people will follow the mission on our Facebook and Twitter sites. But the ultimate goal is that people will be interested enough to follow the science when we began getting our data,鈥 he said.

鈥淚鈥檓 delighted to be here at 抖阴旅行射-Boulder, and I鈥檓 delighted that this mission we have put together has a major Colorado connection.听 We are going to Mars!鈥澨