Alumna Shirley Dow Stekel, BA ’58, MA ’61 came back to visit the Physics department on September 29. Prof. Stekel is retired from the Physics Department at the University of Wisconsin – Whitewater and visited with her husband Frank and daughter and son-in-law. After her first year classes, she was the only woman in her math and physics classes and remembers walking into the old Men’s gym for mass exams and feeling very alone. She says “I just liked physics and math, and wanted to see how far I could go with it. But another very important part of feeling comfortable on campus were my friends at Winston House. There were 30 -35 women who lived and worked together there. Most quarters, I had a class with someone from the House. German, American Literature, Music Appreciation, etc. provided enough credits for a BA.” She notes that she had room for extra courses because she was not required to take ROTC.
She went on to get her Masters in Physics at OSU before moving on to faculty positions in Washington and Michigan and finally an Assistant Professorship at Whitewater with a sabbatical break at the Indiana Synchrotron facility. During her visit to OSU, she visited the Minot and Lee labs and sat in on a 212 studio. She had instituted similar group engagement methods at Whitewater two decades ago, inspired by the way Botany had been taught at OSU when she was here. She says Weniger is both the same and different from when it first opened, although Winston House has been replaced by the oceanography building. She has been a long term supporter of Physics at OSU and we hope that we still provide the same inspiring experience that she had here 55 years ago.
Alum Katrina Hay (PhD 2008) has published a book for children, Little Bear’s Big Night Sky. Katie is a professor at Pacific Lutheran University in Washington. Describing her book, Katie says “My outreach goal is to spread a positive message about science to as many kids as possible. This book invites young children to wonder and think big” .
Prof. Shane Larson, who now holds a joint position between the Northwestern Dept. of Physics and Astronomy, CIERA and the Adler Planetarium was recently elected a Fellow of the American Physical Society for his work in public education and outreach:
“”For impacting science and society through the integration of public engagement and research, and for empowering generations of future scientists by his example.”
You can follow his exploits as @sciencejedi on Twitter
Your chair (Heidi Schellman) knows Shane through her Northwestern days and asked him to bring us up to date on what he’s been doing since then. We hope this will be the first in a series of Alumni profiles.
Who are you? What do you do both scientifically and for outreach?
Shane Larson: I got my BS in Physics at Oregon State in 1991. I did my masters and my PhD at Montana State University (1999), then postdocs at JPL, Caltech, and Penn State. I was a professor for two years at Weber State University starting in 2006, then I was at Utah State University where I was tenured in 2013. For the past two years I’ve been a member of CIERA (Center for Interdisciplinary Exploration and Research in Astrophysics) at Northwestern University, and also a member of the Department of Astronomy at the Adler Planetarium in Chicago.
I’m married to a PhD astrophysicist (Michelle). We have a 9-year old daughter (Kate), and three cats (Sierra, Xeno, and Lyra — yes, I’m the “crazy cat man” in the family!).
My research is in gravitational wave astrophysics; I was trained originally in classical relativity, but my interests and work lie at the boundary between gravity and astrophysics. Most of my physics friends call me an “astronomer” and most of my astronomy friends call me a “physicist” so it all works out perfectly, because they all think they can talk to me about the science that flows back and forth across the divide between the two disciplines.
My primary research is on ultra-compact binary star systems — binary stars comprised of two stellar remnants (white dwarfs, neutron stars, or black holes) in orbits roughly 1000 seconds long. This are excellent sources of gravitational waves (many systems are already known), and will be observable by future gravitational wave detectors in space. What my group is most interested in is what the detection of a handful of these sources can tell us about the entire population of remnants that fill the stellar graveyard of the Milky Way — these binary star systems are one piece of the fossil record of the stellar evolutionary history of the galaxy.
I do a lot of different outreach things. I blog regularly at writescience.wordpress.com on a variety of topics in science. When I was at Utah State University, I helped create and directed a program called “Science Unwrapped” which is a monthly lecture series coupled with face-to-face interactions with scientists and science activities after the lecture. The purpose of this effort was to bring a strong human dimension to our work as scientists. It was amazingly successful — from 2009-2013 we hosted 36 events with a total attendance of almost 12,000 people!
In my role at the Adler, almost all of my activities are public facing. Our professional astronomers spend time out in the museum every day talking with visitors and answering questions. We also do special events; one of my favorite things I get to do is watching science or science fiction movies here in Chicago, then answer science questions after the show for the people who came to the movie.
In addition to being a “professional astronomer” I’m also an active “amateur astronomer.” I build my own telescopes (I have a 12.5″ Dobsonian named “Equinox” and a 22″ Dobsonian named “Mariner”), and like to go to star parties whenever I can — I often go to the Oregon Star Party and the Table Mountain Star Party in Washington every summer. When I go to star parties, I almost always end up giving some kind of public lecture about astronomy and science; I’ve done about 100 talks in the last decade.
When were you at OSU and what do you remember about us?
I remember lots! When I came to OSU, I was initially in mechanical engineering, but I changed my major to physics three days after starting an astronomy class with David Griffiths. I’ve written a bit about that at my blog here: http://wp.me/p19G0g-7j
All my classes and professors in physics are still very vivid in my mind. I had intro physics with Carl Kocher, and modern physics with Janet Tate; I had E&M with Cliff Fairchild, Mechanics with Swenson, and Math Methods with Corinne Manogue; I had Thermal with John Gardner, and Quantum with Al Stetz.
I did a little bit of research with David Griffiths on simulating impacts in aerogels (the material NASA used on the Stardust mission), and a little bit of research with Corinne Manogue on super-radiance in the Klein-Gordon equation. I spent most of my research days, however, working in Jeanne Rudzki Small’s laser lab in the Biophysics Department. There I worked in “pulsed-laser photoacoustic calorimetry” which is scientist fancy-talk for “we shot proteins with lasers to make them unfold, then we listened to them fold back up again.” 🙂
My early exposures to teaching also came at OSU; I graded Modern Physics for Janet Tate, and I worked with Ken Krane one summer on an NSF Young Scholars grant.
Prof. Janet Tate has been named a Fellow of the American Physical Society.
“For contributions to structural, transport, and optical properties of a wide variety of electronic and superconducting materials.”
The American Physical Society is the national representative for the 50,000 industrial and academic physicists in the US. Only 0.5% of APS members are Fellows of the Society at any given time.
On Monday Prof. Janet Tate received the F.A. Gilfillan Memorial Award for Distinguished Scholarship in Science.
Her research interests are in thin-film semiconductors for energy-related applications. Her group deposits thin films by physical vapor deposition, mostly pulsed laser deposition, and studies their structural, optical and electrical and thermal transport properties.
Over the past few years her group has created new methods of doping conductors to achieve a wide range of conductivities, with applications from solar cells to transparent transistors and have demonstrated some of the highest conductivities in p-type transparent oxides and sulfide thin films. Such behavior is more difficult to achieve with positive (p-type) carriers, than with negative (n-type) carriers, and her work has been very important in developing the field of transparent electronics, a major technology based partially on basic research done by Prof. Tate and her collaborators at OSU.
For more details on the award, see the College of Science story about the awards ceremony:
Physics faculty Ethan Minot and Janet Tate are part of a team of 6 investigators who have been awarded an NSF grant to acquire a $700,000 instrument for materials science research. The instrument, known as a physical properties measurement system (PPMS), will be located in the Kelly Engineering Building and will support materials research across campus, and across all of Oregon. The PPMS allows researchers to study material properties (electrical/optical/magnetic) at extreme temperatures and magnetic fields.
Jeremiah Hauth is the recipient of the 2015 Hetherington Scholarship in the Department of Physics.
The Hetherington Scholarship was established by Ann and Bill Hetherington. Bill is an emeritus faculty member in physics who realized while teaching that some of his students were working many hours to support themselves while also studying and doing research. This scholarship is intended to reduce the need for highly talented students to work so that they can focus on scholarship.
Instructor KC Walsh has received two awards to support his innovative teaching.
He has been awarded an ESTEME@OSU Action Research
Fellowship and an L.L. Stewart Faculty Development Award to support his research on the effectiveness of flipped classroom materials.
For details on the program please go to http://stem.oregonstate.edu/ad-action-research-fellowship