STUDENT AWARD
Luis Rufino receives Outstanding Undergraduate Student Award Luis Rufino, a senior who graduated in May with a degree in physics, has overcome many academic challenges at the U. His efforts were recognized when he received the College of Science Outstanding Undergraduate Student Award. “When I first heard the news, I was surprised because I didn’t feel I deserved it, even though I’ve worked hard,” he said. “Maybe I’m suffering from imposter syndrome and still questioning my abilities, but winning the award gave me assurance that I’ve been successful in achieving my goal of improving as a student.” As a freshman at Salt Lake Community College, Rufino had struggled with some classes. When he transferred to the U, he worried he wouldn’t be able to keep up with upper-division physics classes. “I knew I wanted to attend graduate school, which meant I had to improve in my physics classes and also get some research experience,” he said. “Throughout my academic career at the U, I’ve tried to do my best and still find time for research. A physics degree is already quite challenging, and wanting to do research on top of that added another layer of stress and difficulty.” Rufino thinks one of the most important skills he learned at the U was how to manage school, research, and everything else that life throws at an undergraduate. He’s also learned how to bounce back from setbacks, especially in research. His research is focused on exploring new physics to describe dark matter—the particles that gravitationally bind galaxies and clusters of galaxies together. The Standard Model of particle physics is the theory that explains how the most elementary particles interact with each other and combine to
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Luis Rufino
form composite objects, like protons and neutrons. Developed over the course of many decades, what we know today as the Standard Model was formulated nearly half a century ago and remains a focus of study for particle physicists. By itself, the Standard Model fails to provide an explanation for many important phenomena, such as the existence of dark matter in the universe. Theoretical physicists have begun to think of a new group of particles that can potentially describe dark matter. These theoretical particles are called the Supersymmetric Standard Model, which suggests that a “cousin” or partner particle may exist for every fundamental particle in the Standard Model. One of these partner particles has the potential of being the mysterious dark matter particle. But how do we find these partner particles? Whenever two particles interact with each other, they emit light and other particles. The same thing
