Dr. Jeong Min (Jane) Park Wins 2025 Lee Osheroff Richardson Prize For Quantum Phenomena In Two-Dimensional Materials

Oxford Instruments announced on March 3, 2025, that Dr. Jeong Min (Jane) Park, a postdoctoral fellow at Princeton University, has been awarded the Lee Osheroff Richardson Science Prize for her pioneering work on emergent quantum phenomena in two-dimensional moiré quantum materials. Her research includes the discovery of a new strong-coupling superconductor in magic-angle twisted trilayer graphene and advancements in understanding fractional Chern insulators, significantly contributing to the field of complex emergent behavior in strongly interacting electronic systems. The prize, which recognizes young scientists working in low-temperature physics or related fields, includes a $15,000 award and support for Dr. Park to attend the American Physics Society Global Physics Summit, where she will be honored. Oxford Instruments has sponsored the prize since 2005, supporting early-career researchers in advancing quantum technology.

Oxford Instruments Announces Winner of 2025 Lee Osheroff Richardson Science Prize

Dr. Jeong Min (Jane) Park has been awarded the 2025 Lee Osheroff Richardson Science Prize by Oxford Instruments for her groundbreaking work in quantum materials. Her research focuses on emergent quantum phenomena in two-dimensional moiré systems, particularly in magic-angle twisted trilayer graphene, where she discovered a new strong-coupling superconductor.

Dr. Park’s contributions include advancing the understanding of fractional Chern insulators and establishing magic-angle twisted multilayer graphene as a robust family of superconductors. Her work on tetra- and penta-layer graphene systems has expanded the field, while her development of quantum transport-based techniques for measuring thermodynamic properties in 2D materials further solidifies her impact.

The prize recognizes Dr. Park’s exceptional contributions to the study of quantum materials, highlighting her role in shaping future research directions. Her work not only advances theoretical understanding but also provides practical insights into potential applications in quantum technology.

Dr Jeong Min (Jane) Parks Pioneering Work in Quantum Materials

Dr. Jeong Min (Jane) Park’s research has significantly advanced the field of quantum materials by focusing on emergent phenomena in two-dimensional moiré systems. Her work on magic-angle twisted trilayer graphene revealed a new strong-coupling superconductor, demonstrating how these materials can exhibit unique electronic properties under specific conditions. This discovery has expanded our understanding of superconductivity and its potential applications.

In addition to her contributions to superconductivity research, Dr. Park has also made strides in studying fractional Chern insulators, which are quantum states of matter characterized by exotic topological properties. Her investigations into magic-angle twisted multilayer graphene systems have established this material family as a robust platform for exploring complex quantum phenomena. By examining tetra- and penta-layer graphene configurations, she has further elucidated the behavior of these materials under varying conditions.

Dr. Park’s development of novel quantum transport-based techniques has provided researchers with powerful tools to measure thermodynamic properties in two-dimensional materials. These methods have enhanced our ability to characterize and understand the intricate electronic behaviors observed in quantum materials, contributing to both theoretical advancements and practical applications in the field.

Dr Jeong Min (Jane) Park Expresses Gratitude for Mentorship

Dr. Jeong Min (Jane) Park expressed deep gratitude for the mentorship and support she received throughout her academic and professional journey. She acknowledged the significant role her advisors and collaborators played in shaping her research direction and fostering her contributions to the field of quantum materials. Their guidance, she noted, was instrumental in enabling her to pursue innovative investigations into emergent phenomena in two-dimensional moiré systems. This mentorship not only supported her scientific growth but also helped establish a robust foundation for her groundbreaking discoveries in superconductivity and topological states of matter.

Oxford Instruments Recognizes Early Career Scientists with Lee Osheroff Richardson Prize

Oxford Instruments has long been committed to fostering innovation in quantum materials research by recognizing the contributions of early career scientists through its Lee Osheroff Richardson Science Prize. The prize, established to honor outstanding achievements in the field, highlights the importance of supporting researchers at critical stages of their careers. This year’s recipient, Dr. Jeong Min (Jane) Park, exemplifies the potential for groundbreaking discoveries when early-career researchers are given the opportunity to pursue ambitious scientific inquiries.

The Lee Osheroff Richardson Prize is designed to acknowledge researchers who have demonstrated exceptional promise and creativity in advancing our understanding of quantum materials. By focusing on early career scientists, Oxford Instruments aims to encourage continued exploration into the complex properties of these systems, which hold significant potential for future technological advancements. The prize not only recognizes individual achievements but also underscores the importance of mentorship and collaboration in driving scientific progress.

Dr. Park’s work on two-dimensional moiré systems represents a significant contribution to the field of quantum materials. Her research has provided critical insights into the behavior of these systems under specific conditions, particularly in magic-angle twisted trilayer graphene. By identifying new strong-coupling phenomena and developing novel measurement techniques, Dr. Park has expanded the boundaries of what is possible in this area of study. Her findings have implications for both theoretical understanding and practical applications, making her a standout figure in the field.

The recognition of Dr. Park’s work through the Lee Osheroff Richardson Prize reflects Oxford Instruments’ broader commitment to advancing scientific knowledge and supporting the next generation of researchers. By providing resources and acknowledgment to early career scientists, the organization plays a vital role in shaping the future of quantum materials research. This support is essential for fostering innovation and ensuring that promising ideas are given the opportunity to thrive.