U.S. Project Scientist, ESA Rosetta Mission,
Jet Propulsion Laboratory
Where are you from?
Describe the first time you made a personal connection with outer space.
When I was a little girl Sputnik was launched, and I was instantly drawn into the whole miracle of spaceflight and exploring the cosmos.
How did you end up working in the space program?
Since my real love has always been science and engineering, I got my undergraduate degree at the Massachusetts Institute of Technology (MIT), and enjoyed moving from a country setting in Pennsylvania to an urban environment. I then went to graduate school at Cornell University and earned degrees in astronomy and space science. I came to the Jet Propulsion Laboratory (JPL) right out of graduate school, where I came to work on the Voyager mission (Voyager 1 and Voyager 2).
"The most important thing about being a scientist is that you are always on the forefront of knowledge, discovering new things. When you work in space science and analyze data coming from a spacecraft, you can learn and experience things that have never been seen before."
Who inspired you?
My eighth grade algebra teacher (Mr. Resnick), and my dad (an engineer for Bethlehem Steel Co.). I also read a lot.
What do you do for the European Space Agency's (ESA) Rosetta mission?
I'm the U.S. project scientist. There is also an ESA project scientist, Matt Taylor. I'm responsible for the NASA end, guiding and directing the science. I participate with the Europeans and make sure that the U.S. instruments are being utilized. The three main instruments are MIRO, an infrared instrument; ALICE, an ultraviolet spectrometer; and IES, the Ion and Electron Sensor.
The first two are remote sensing instruments, while the IES directly detects particles in the plasma surrounding the comet. MIRO and ALICE are looking at the big picture, while most of the European instruments are focusing right on the comet and measuring fields and particles.
What is the most amazing discovery from Rosetta?
The things I find most fascinating are water ice and oxygen. We've known that there has to be water in comets, but we've never been able to detect it so directly before, and Rosetta has done that. From a science point of view, that's probably the biggest.
We've also detected molecular oxygen, O2, the same thing we have in our atmosphere, and that was not expected at all. It's quite amazing, and we're pretty sure the oxygen has been there since the beginning.
What is your favorite part of being on the Rosetta mission?
OSIRIS, the camera, has been sending out a picture a day. Just looking at those every day--that's the "gee-whiz" thing. The dust production and the evidence of water ice coming off-some of these images, I just find them enthralling.
What are you most interested to discover from this mission?
What powers the jets, and what causes the jets to come up at such explosive speeds? We're starting to see some of the boulders: are those boulders spewed up from the jets? It's interesting to see what a comet looks like up really close. The holes we see all over the comet may have been areas of previous jetting.
What advice would you give to someone who wants to take the same career path as you?
The most important thing about being a scientist is that you are always on the forefront of knowledge, discovering new things. When you work in space science and analyze data coming from a spacecraft, you can learn and experience things that have never been seen before.
Curiosity is the number one thing in science. You have to dig down. You have to be a glutton for knowledge. The second thing is to be persistent and never give up. When you're a knowledge worker and increasing knowledge, there will always be pitfalls and frustrations. You have to not care about that. You have to press on regardless. Those are the two things: curiosity and persistence. You have to possess those in infinite measure. Never, never, never, never give up!
What do you do for fun?
Read, sing, garden, cook, hike and knit.