Peter Graham

Peter Graham's projects resonate with pressing global needs in understanding the fundamental forces and particles that constitute our universe. As an Associate Professor of Physics at Stanford University, his research delves into the realms of theoretical physics beyond the Standard Model. With a keen interest in cosmology, astrophysics, general relativity, and atomic physics, Peter seeks to unravel the mysteries surrounding dark matter and the origins of the weak scale. His work is characterized by a blend of theoretical insights and innovative experimental designs. Among his notable contributions are the Cosmic Axion Spin Precession Experiment (CASPEr) and the DM Radio experiment, both of which aim to detect elusive particles and phenomena that could redefine our understanding of the universe. These experiments are pivotal in the quest to uncover new physics, potentially leading to groundbreaking discoveries. Peter's dedication to advancing the field of physics has not gone unnoticed. His efforts have been recognized with prestigious accolades, including the 2017 New Horizons Prize in Physics, which celebrates promising early-career researchers, and the DOE Early Career Award, highlighting his potential to make significant contributions to the field. Beyond his research, Peter is deeply committed to mentoring the next generation of physicists. He actively engages with students and colleagues, fostering a collaborative environment that encourages innovative thinking and exploration. His passion for teaching and research inspires those around him to push the boundaries of what is known and venture into the unknown. In addition to his academic pursuits, Peter is involved in various scientific communities and initiatives. He frequently participates in conferences and workshops, sharing his insights and learning from others in the field. His collaborative spirit and dedication to scientific advancement make him a respected figure in the physics community. Peter Graham's work continues to shape our understanding of the universe, driving forward the search for answers to some of the most profound questions in physics. His contributions to both theoretical and experimental physics are paving the way for future discoveries that could transform our comprehension of the cosmos.