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Billikens In Space: SLU Students, Alumni, Faculty Seek Knowledge Beyond Earth’s Bounds

03/21/2019

At SLU, students launch satellites and study how life might arise on distant moons devoid of oxygen.

Now a SLU alumna, Morgan Elliott (left) interned at NASA for two summers through a competitive fellowship while completing her undergraduate degree. Here, she is seen in a mock-up of the Orion docking system. Submitted photoNow a SLU alumna, Morgan Elliott (left) interned at NASA for two summers through a competitive fellowship while completing her undergraduate degree. Here, she is seen in a mock-up of the Orion docking system. Submitted photo

It’s hands-on learning that they then take with them into their careers beyond the classroom. With storied alumni, novel research and cutting-edge teaching, Saint Louis University students, alumni and faculty members are building on a legacy of innovation to find solutions to the new challenges humanity will encounter through space exploration.

“We’re giving students the opportunities and experiences necessary to jump into a career in space,” Michael Swartwout, Ph.D., associate professor and chair of aerospace and mechanical engineering, said. “That in terms of the big SLU picture has been happening all along.”

SLU Alums Launch Voyages of Discovery

Students who graduate from SLU join a long list of those who have helped advance mankind’s reach into the cosmos.

Alumni from Parks College of Engineering, Aviation and Technology have helped launch every NASA manned mission. In 2018, alumnus Fernando Abilleira (Parks ’99, Madrid ’01), worked on the Mars Insight Mission, helped form, design and implement the groundbreaking mission to the Red Planet.

SLU alumni who helped put America’s astronauts in orbit received a special ‘thank you’ from Buzz Aldrin before a packed house at SLU’s Center for Global Citizenship in 2017.

Buzz Aldrin visit

Buzz Aldrin detailed his past exploits as the second man on the Moon and his recent adventures in the Galapagos Islands and at the South Pole on Wednesday, Nov. 15, 2017, as part of Saint Louis University's Great Issues Speakers Series. Photo by Maggie Rotermund

Aldrin spoke at SLU as part of the University’s student-run Great Issues Speakers Series. St. Louis crowds lined up around the block hoping to hear from the legendary astronaut who told the SLU crowd that “St. Louis has always played a major part in NASA activities.”

He gave a special nod to members of the “Old Mac Club” – former employees, including SLU alumni, of McDonnell Douglas (now Boeing) – who helped put him and his crew members on the Moon.

“By venturing into space,” Aldrin said, “we improved life for everyone here on Earth.”

Looking Skyward for Research Experience

As a child, alumna Morgan Elliott (Parks ’15) didn’t dream about blasting off into space. She was focused on engineering and patient health as she grew older. However, as she pursued a degree in biomedical engineering under the mentorship of Professor Gary Bledsoe, Ph.D., and faculty members in the School of Medicine, she applied for a NASA internship through the agency’s Minority University Research and Education Project (MUREP).

Over two summers, Elliott interned as NASA’s Johnson Space Center (JSC) Cardiovascular Laboratory. As part of the internship, she learned about the center’s work and analyzed arterial mechanics of the vascular walls during head-down-tilt bed rest, a ground-based simulation of microgravity.

“Space research was brought to my attention at SLU and the direct implications of space research on human health was made clear to me while at NASA,” Elliott recalled. “The program supported my education at SLU and gave me a new perspective on research. The work was inspiring because the research’s applicability to NASA goals was evident every step of the way.”

Morgan Elliott
Over two summers during her undergraduate education, SLU alumna Morgan Elliott interned as NASA’s Johnson Space Center (JSC) Cardiovascular Laboratory, working with NASA scientists and astronauts. Submitted photo

“NASA gave me a new lens to investigate the cardiovascular system,” she continued. “Every aspect of work at NASA is focused towards the overall mission; each question and study goes toward a “go-no go” decision. I loved the driven nature of the work and the ability of everyone, from interns to astronauts, to understand how they contribute to the overall mission.”

Her work at SLU and NASA led her to her current work as a doctoral student at Johns Hopkins University.

“I sincerely believe my studies and research at SLU combined with my NASA internship experiences helped prepare me for graduate school,” Elliott said. “As part of Parks College, I looked at the wall timeline of historic college events and related NASA patches every day on my way to class.”

“Parks College’s history is intertwined with space and aviation,” she went on. “I am proud to be one of the many tendrils involved in that historic, growing braid. It’s humbling and inspiring to know the legacy of Parks College and its alumni. I will continue to push the boundaries of innovation as they did.”

Better Living Through Chemistry . . . On Titan

Paul Bracher and lab

SLU assistant professor of chemistry Paul Bracher, Ph.D. (center) and his students are currently looking how life might emerge on a moon like Saturn’s Titan, where methane, rather than water, is the dominant liquid. Photo by Ellen Hutti

While launching satellites and guiding astronauts are parts of SLU’s space story, students and faculty members are also looking beyond our planet to answer some of universe’s biggest questions like how life originates from a mix of chemicals.

That’s exactly the question that Paul Bracher, Ph.D., assistant professor of chemistry in SLU’s College of Arts and Sciences, and his students investigate daily in his lab. Bracher has received National Science Foundation and NASA funding for his work on the origin of life. His lab is one of 10 nodes of the Center for Chemical Evolution, a national project headquartered at Georgia Tech that focuses on determining how the building blocks of life first assembled into complex biomolecules.

Bracher and his students are currently looking how life might emerge on a moon like Saturn’s Titan, where methane, rather than water, is the dominant liquid.

“We know what life looks like here, and how it evolved here,” Bracher explained. “But what does it look like elsewhere? If we don’t know what to look for, it could exist right under our noses.”

Learning more about how life’s building blocks like amino acids assemble can ultimately tell us more about how life started on Earth while also guiding future space exploration, Bracher said.

“When you’re sending probes out, you need to know what life might look like and what to look for – what those probes, the landers should be looking for,” Bracher said. “The data we develop is important. If life exists elsewhere in the solar system, our data is informing those missions looking for it.”

Both undergraduate and graduate students work with Bracher as training the next generation of researchers involves getting into the thick of chemical processes and reactions.

“The real world needs people to use these instruments and to read these data,” he explained. “There are just so many aspects to being a scientist and those skills are portable to other disciplines.”

Applying SLU Skills Beyond the Stars

SLU alumnus Thomas Campbell, Ph.D., (A&S Grad ’18) found earthly applications for the skills he learned working with Bracher on origin-of-life questions. Now an analyst with Kantar Health, a global health care consulting company, Campbell sees his work unraveling one of science’s most formidable challenges – how life begins – as helping him tackle career challenges more effectively.

“The most important skill I learned from my research is how to work on a really hard problem,” Campbell said. “Every potential employer in the world needs people who can solve hard problems in a systematic way.”

Thomas Campbell, Ph.D.
During his graduate work in SLU's Department of Chemistry, Thomas Campbell, Ph.D., received a NASA fellowship. SLU photo

Working as a NASA fellow during his graduate work, he continued, taught him the value of communicating clearly. Winning the competitive NASA Earth and Space Science Fellowship while at SLU, he said, was his proudest achievement, one he credits to the mentoring he received as part of the Bracher lab.

“It’s exciting to see space-related research at SLU expand beyond engineering and into basic science,” he said.

Learning Lifts Off into Orbit

Just as SLU chemistry students explore life’s origins and its biomedical engineers examine how the circulatory system works in microgravity, Billiken engineering students are hard at work attempting to launch satellites into orbit.

A team is currently at work on a CubeSat – a small satellite – that will launch in January 2020. If all goes well, it will orbit our planet and test a program that would sort image data. If the CubeSat fails, as a similar project did in 2015, to make it beyond the Earth’s atmosphere, the experience will still teach students valuable lessons, Swartwout, the project’s supervising faculty member, explained.

“The best training for spacecraft engineers is to get something built and flying,” he said. “It’s to take an idea, get it engineered, to get it built and to get it into space. There’s a learning curve. There is a mistake curve.”

Flying and failing as a student, he continued, can ultimately make students more resilient employees for space industry employers because they’ve developed skills for coping with high pressure, high risk situations in their undergraduate work.

“You have to have a strong heart and a thick skin to be in this industry,” Swartwout said. “You don’t really learn unless you burn your fingers. Because, until you’ve put it through the fire of space operations, you don’t know.”

Teaching to the Future Job

In the end, for Swartwout, the best way for students to learn is through the hands-on projects they undertake in SLU’s engineering labs.

Those projects are informed by faculty member research, like Swartwout’s ongoing CubeSat database – a premier resource he developed that is used by NASA, the U.S. Air Force and space industry leaders.

CubeSat lab student

As part of their coursework, a student team is currently at work on a CubeSat – a small satellite – that will launch in January 2020. If all goes well, it will orbit our planet and test a program that would sort image data. Photo by Ellen Hutti

The research-informed, hands-on approach of SLU’s engineering classes gives its students an edge, he said, when it comes to seeking out professional and graduate opportunities.

“Everyone’s going to have great classes, everyone’s going to have outstanding teachers,” Swartwout said. “But when you go into that interview and they see that fluid mechanics class, they aren’t going to ask you about that exam. Employers are going to ask about your project.”

 “There are a lot of resumes in that stack but what are those things that will make you a known commodity?” he continued. “What sets you apart? Those skills – collaboration, cooperation, resilience – are what you learn here when you fly a spacecraft before graduation.”


 Saint Louis University is a Catholic, Jesuit institution that values academic excellence, life-changing research, compassionate health care, and a strong commitment to faith and service. Founded in 1818, the University fosters the intellectual and character development of more than 13,000 students on campuses in St. Louis and Madrid, Spain. Building on a legacy of now more than 200 years, Saint Louis University continues to move forward with an unwavering commitment to a higher purpose, a greater good.

Story by Amelia Flood, University Marketing and Communications