“As a teenager, gazing at the stars on the dark canvas of the sky was like entering the most luxurious cinema,” reminisced Thomas Lai, a graduate student studying astronomy. “Soon I picked up the habit of staying in the dark whenever I could, and to recognize as many constellations as possible during my high school years.
“In retrospect, I can see this as a sparkle of the beginning of my interest in the enigmatic cosmos.”Lai’s passion and hard work were recognized by the Department of Physics and Astronomy: He recently received the Doreen and Lyman Spitzer Graduate Fellowship.
The fellowship is named after Toledo natives. Lyman Spitzer was a world-renowned physicist and astronomer, who was an early proponent of a project that became the Hubble Space Telescope. The Spitzer Space Telescope, launched in 2003, is named after the scientist. Doreen Spitzer was a prominent archaeologist who had an affinity for all things Greek.
Lai, with assistance from Dr. Adolf Witt, Distinguished University Professor Emeritus of Astronomy, and Dr. JD Smith, associate professor of astronomy, was able to publish a study on light emissions from nebulae in the Cassiopeia constellation.
“I was extremely pleased that we were able to offer the Spitzer Fellowship to Thomas. He was clearly qualified; he was eager to start an independent research project during his first year as a graduate student at UT, which the Spitzer Fellowship made possible,” Witt said. “The data for this project had been secured beforehand by my collaborator, Ken Crawford, and myself. This allowed Thomas to enter right at the data calibration, reduction and analysis stage of the project — the phase where scientific results and conclusions are being extracted from a collection of images and numbers.
“I enjoyed working with Thomas. The fact that the project resulted in a peer-reviewed scientific paper in a major journal within about two years speaks for itself.”
“They showed me not only the method in conducting research, but also the right attitude in finding the reasonable answer,” said Lai, regarding the aid he received from Witt and Smith.
On the results of his study, Lai said, “I am particularly interested in extended red emission, because we understood little about the exact emission process and the carrier involved in producing such light, even though it has been studied for more than 40 years. To summarize this study, we attributed the extended red emission to a fluorescent process, namely the recurrent fluorescence, which enables small and fragile particles in interstellar space to dissipate their energy efficiently after being bombarded by high-energy photons originating in an illuminating star. This mechanism prevents particles from getting destroyed in the harsh environment filled with ultraviolet radiation from stars, and it may be a crucial process for increasing the survival rate of small carbonaceous molecules, which might be the building blocks of life.”
Though great progress has been made, Witt pointed out the work of a scientist is never finished: “It is an important part of the research experience that every successfully completed project should lead to new questions, which then demand follow-up studies. This has been the case with our work as well. A new question has emerged from some of our current findings, the solution to which we are pursuing through observations with the 4.3-meter Discovery Channel Telescope in Arizona and the 10-meter Keck II telescope on Mauna Kea, Hawaii. This will most likely be part of Thomas’s PhD thesis.”
Luckily, Lai’s passion for this field will surely lead to many more years of scientific discovery.
“Having this paper published means a lot to my career in astronomy,” Lai said. “It encourages me to find more intriguing phenomena provided by the universe and to reveal those profound facts hidden by wonders of the nature.”