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Jainendra K. Jain, Evan Pugh University Professor and Erwin W. Müller Professor of Physics and holder of the Eberly Family Chair in the Penn State Eberly College of Science, has been awarded, along with two others, the 2025 Wolf Prize in Physics for “groundbreaking contributions to quantum matter and its topological potential” that revolutionized “our understanding of two-dimensional electron systems in strong magnetic fields.”
The Wolf Prize acknowledges scientists and artists worldwide for their outstanding achievements in advancing science and the arts for the betterment of humanity.
Jain was named the 2025 winner alongside fellow physicists Mordehai “Moty” Heiblum and James Eisenstein as per the foundation.
“I am immensely grateful to the Wolf Foundation for welcoming me into this truly esteemed community of scientists for my introduction of composite fermions. The honor truly belongs to my students, collaborators and numerous other researchers whose brilliant work transformed composite fermions from an idea to reality,” Jain said. “Looking back, it is hard to believe how incredibly fortunate I have been. Growing up in a poor village in India, traumatized by an accident that left me on crutches with a lifelong disability, I did not think I would ever walk again or attend college, let alone pursue my dream of becoming a physicist. I don’t have words to express my profound gratitude to my family, friends, colleagues and even strangers who have helped and supported me throughout my journey to make this possible.”
In his early theory research, Jain introduced a class of exotic particles called composite fermions, explaining a new state of matter consisting of the intricate sequence of fractional quantum Hall states, now known as Jain states. Jain described the composite fermion as an electron trapped inside a quantum vortex in this strange liquid, sometimes thought of as an electron bound to a quantized magnetic field. Under certain conditions, composite fermions form a superconductor — or a material that can conduct electricity without losing any energy at low temperatures.
Jain first developed his theory while he was a postdoctoral scholar at Yale University and continued his path breaking research work after joining the Penn State physics faculty in 1998.
“The Wolf Prize is one of the highest honors in the world of science, and this well-deserved recognition of Dr. Jain’s extraordinary contributions is a proud moment for Penn State,” said Penn State President Neeli Bendapudi.
Just last month, Microsoft announced a potential breakthrough in quantum computing based, in part, on the early work of Jain and others in this space.
“I am on the theoretical understanding side of this spectrum, but I work closely with scientists who test whether the theories correspond to reality,” Jain said in a recent Penn State News article. “The news from Microsoft is an example of how basic research at universities could lead to real-world applications that drive innovation — like quantum computers.”
“Jainendra’s pioneering work on the introduction of composite fermions has fundamentally transformed our understanding of condensed matter physics, and this moment is a testament to the dedication, creativity and excellence that define Jainendra’s work. We are incredibly proud of him,” said Mary Beth Williams, acting dean of the Penn State Eberly College of Science.
Jain was elected a foreign fellow of the Indian National Science Academy in 2024, appointed as the holder of the Eberly Family Chair in Physics in 2023, elected as a member of the National Academy of Sciences in 2021, named an Evan Pugh University Professor in 2012, honored with the Distinguished Alumnus Award by the Indian Institute of Technology, Kanpur in 2010, elected as a fellow of the American Academy of Arts and Sciences in 2008, and received the Oliver E. Buckley Prize from the American Physical Society in 2002.
