By Matthew Schehl, Naval Postgraduate School
MONTEREY, Calif. -- A Naval Postgraduate School student has
boldly gone where no NPS physics student has gone before.
Navy Lt. Todd Coursey embarked recently on a quarter-long
summer internship with NASA at its Armstrong Flight Research Center in Edwards,
California, to supplement his applied physics curriculum. He is the first such
student to do so, and his internship has the potential to significantly expand
NPS’ research horizons.
“Todd took a quantum leap in going to NASA,” said NPS
physics professor Ray Gamache. “I don’t think anyone has ever done this before.
It’s a great idea: go to another place that’s completely unknown and work
there, assess, understand how things work; this is just priceless.”
Over his three-month internship, Coursey and his NASA team
are experimenting with various materials for a new generation of fiber optic
cables which optimize performance at cryogenic temperatures.
In providing real-time monitoring of a range of key
engineering data, the fiber optic sensing systems which will employ these can
revolutionize not only future rocket bodies, but aircraft, energy and
transportation infrastructure, and medical surgeries, according to NASA.
“We’re basically dropping different kinds of coated fiber
optic sensing cables into a small cryochamber -- about the size of a fire
extinguisher -- and then reading the raw data to see which ones are most effective
and efficient,” Coursey explained. “From there they’ll do the systems
development and look at incorporation.”
Hard-Earned Opportunity
The internship is a natural continuation of Coursey’s
studies at NPS.
His graduate work in applied physics -- his thesis will be
on the acoustic detection of drones -- will be amplified by his hands-on
experience at NASA, says NPS physics professor Frank Narducci, who is providing
Coursey with directed study so the internship can satisfy the optics
requirement of his curriculum.
“When Coursey first approached me with this opportunity at
NASA, I asked him,‘How is it that you have an entire quarter when you don’t
have to be here?’” Narducci said. “When students come to NPS, their class
matrix is pretty packed; it’s very hard to get any wiggle room. But Todd,
knowing that this was a possibility in his future, front-loaded some of his
courses so that he could clear out the summer.”
Yet the singular course load is hardly a cake-walk.
With his master’s research looming over him, Coursey
voraciously works through the readings Narducci assigns in addition to the work
he is doing at NASA.
“I suspect when they’re doing their tests it’s not even
‘nine-to-five’ to begin with,” Narducci said. “If you’re doing experimental
physics and the experiment is working, you just keep working, you keep taking
as much data as you can because when you’ve turned things off and come back
tomorrow, nothing’s going to work ... Experimental physics is always like
that.”
Cultural Experience
Coursey embraces the challenge, however, and remains deeply
engaged with his work and studies.
“When you come to NPS, you’re there obviously for the
academic work, but it’s another thing to get experience,” he said. “Coming to
NASA is a great way to learn about what other organizations are doing, how
they’re approaching problem-solving internally and how the project teams are
put together.”
Coursey added, “So it’s not just academics that I’m learning
here. I’m learning a lot about the culture at NASA, which I think would do
really well to bring back to the Navy.”
In a way, the NASA internship represents a sort of
homecoming for Coursey. Growing up in nearby Palmdale, California, test flights
of the SR-71 Blackbird, the F-117 Nighthawk and the B-2 Spirit operating out of
Edwards Air Force Base were a staple of his childhood.
Most salient to him, however, were NASA’s space shuttle
landings.
“It used to land out here on the dry lake beds before they
moved it over to Florida,” he recalled. “As it came in, there was a huge double
sonic boom, almost like an earthquake. It was surreal: right outside my window
there’s a huge compass rose burnt into the desert floor which the space
shuttles would use to navigate when they would come in. It’s still there.”
The space shuttle landings left an indelible mark on
Coursey’s imagination which propelled an interest in physics throughout his
life -- and Navy career.
‘Moon Shot’
While conducting research on the Internet, he came across
NASA’s complex aircraft program called the Preliminary Research Aerodynamic
Design to Lower Drag, intended to eventually be the first in-air rover on Mars.
“I said, ‘Oh, cool! They have a [unmanned aircraft] shop
that’s in tune with what I’m doing at NPS,’” he said. “Maybe I can go out there
and check it out and see what they’re doing.”
Coursey contacted NASA and arranged a day-long tour while
home on leave last summer. While there, he noticed they had interns. Intrigued,
he returned to NPS.
“I talked to the physics department, my project officer and
my academic advisor to see if working at NASA over the summer was a
possibility,” he said. “They were full-throttle very excited about it and said
if it works, they’d fully support me.”
It did work. Coursey applied for the NASA internship
program, with Gamache writing a letter of recommendation and Narducci agreeing
to conduct the independent study. Coursey was accepted and began his work at
NASA in mid-June.
“This was my moon shot,” Coursey said, referring to
President John F. Kennedy’s 1962 speech declaring America’s ambition to land a
man on the moon. “I was out here. I knew they had interns. And without the
support of NPS, this wouldn’t have come through.”
Opening Doors
For the NPS physics department, Coursey’s initiative
presented a win-win scenario.
“It was very forward-looking on his part,” Narducci said.
“We can do all the book-learning we want, but it never works that way in real
life.
“We always teach the ideal, ‘Well, in a perfect world, if
you do the experiment in a vacuum, it always works that way,’” he continued.
“Now he’s in an environment where things are not perfect, where the question
becomes, ‘How do we make this work, anyway?’ And that’s extremely valuable.”
When Coursey graduates in December, NPS will have produced a
more experienced, better-prepared student. The internship also opens the door
to future collaboration between NPS and NASA, Narducci said.
“We’ve got people doing a similar type of work,” he said.
“Now he’s established that connection for us.”
Seeking interdisciplinary collaboration has become the norm
in applied physics, but Coursey has taken this to the next level, Gamache said.
“What Todd did, that no one else has done, is to take that
jump. Not just to the Navy, but to NASA,” he said. “Todd may see that the
structure of how they run their scientists and projects is completely different
from the way that we do it in the [Department of Defense,] and so he’ll have a
base of understanding of other government agencies outside of the Navy.
“Wherever he goes after this, he’ll be able to share these
different concepts and different ideas with them; it’s a very much a
synergistic effect,” Gamache added.
After he completes his internship in August, Coursey will
share his experience with the NPS community. On Sept. 28, he’ll spearhead the
physics department’s Fall Quarter Colloquium Series, which will be open to the
general public.
“I think it’ll be great because all of a sudden one of our
speakers in the colloquium series is not ‘the world-renowned expert in X, Y or
Z’, but one of us,” Narducci said. “I think he will have a lot to tell us about
his work at NASA.”
For his part, Coursey is grateful for the opportunity to
work at NASA.
“I’m just fortunate to be here, and I hope that I can share
what I’ve done here and allow other students to pursue something like it,” he
said.
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