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Ever wish you could spend your summer vacation exploring someplace cool? Undergraduate students Ross Jennings and Zhilu Zhang, both of Carleton College, had the opportunity to explore one of the coolest places in the solar system when they joined the University of Michigan Physics Department's Research Experiences for Undergraduates (REU) summer program to work with Professor David Gerdes on a search for trans-Neptunian minor planets with the Dark Energy Survey. This faraway region of the solar system, more than five billion kilometers from the sun, is populated by thousands of small, icy worlds that take centuries to complete one orbit. These trans-Neptunian objects (TNOs) are believed to be leftovers from the primordial cloud that gave birth to the solar system.
“The orbits of some of these objects cannot have arisen from interactions with the major planets in their current configuration,” explains Gerdes. “By studying these trans-Neptunian objects, especially the most distant ones, we can better understand the processes that shaped the solar system.”
To look for TNOs in Dark Energy Survey data, Gerdes and his students examined the 10 fields that DES visits roughly every five days to search for Type Ia supernovae. This search uses difference imaging software to detect transient objects, such as a supernova that brightens rapidly and then fades over the next few months. But it's also the perfect tool to find TNOs, which move from night to night against the background of fixed stars, yet slowly enough that they can stay in the same field of observation for weeks.
Gerdes, Jennings and Zhang started with a list of nearly 100,000 observations of individual transients, and then linked different combinations with trial orbits to see which ones were consistent with a TNO. As more and more points were added to each candidate orbit, the team refined their calculations and made improved predictions for additional observations. By the end of the summer, the team had discovered five new TNOs. The new objects are about 200 km in size--roughly the length of the Grand Canyon.
The properties of the new objects reflect the rich dynamical structure of the trans-Neptunian region: one orbits the sun once for every two orbits of Neptune, and another makes two orbits for every five of Neptune. These orbital resonances protect the objects from disruptive close encounters with the giant planet. A third object, 2013 TV158, has a highly elongated, 1200-year orbit that is among the 50 longest orbital periods known.
“So far we’ve examined less than one percent of the area that DES will eventually cover,” says Gerdes. “No other survey has searched for TNOs with this combination of area and depth. We could discover something really unusual.”
In the course of this summer project, the students learned a variety of skills, from Python programming to the mechanics of submitting results for publication.
But the most important thing, says Zhang, was this: "You need to really have a lot of enthusiasm for the research you are involved in, because there is a lot of repetition and tedious work involved in research, and it is not about discovering new things every day. However, the joy you get after you finally find something is so special that I haven't felt anything like that before in my entire life."
The Physics Department's NSF-funded REU program provides support for students to carry out a summer research project with a Michigan faculty member. Applications for the 2015 program will be accepted beginning December 1, 2014. More information can be found here.
Learn more about the Distant Wander 2013 TV158 at the Dark Energy Detectives blog.