Princeton Center for Complex Materials - PCCM
The Princeton Center for Complex Materials (PCCM) is a National Science Foundation supported Materials Research Science and Engineering Center (MRSEC) at Princeton University. Established in 1994, the PCCM is dedicated to pushing the frontiers of complexity in materials science - bringing together over thirty faculty from six departments in the natural sciences and engineering. Currently funded by the NSF (DMR-1420541), the PCCM supports three Interdisciplinary Research Groups (IRGs) and several seed projects. The current IRGs are focused on research in the newly discovered topological phases of electrons and materials, surface and dynamics in confined polymers, and the development of ultra coherent quantum materials. In addition to forefront materials research, the center sponsors an active educational outreach program involving elementary, middle and high schools, as well as a Research Experience for Undergraduates (REU), teacher programs, and industrial outreach programs.
Lawrence Cheuk: "Introduction to Quantum Simulation of Condensed Matter Physics with AMO Experiments
Prof. Collin Broholm: "Magnetism and superconductivity in Weyl and Dirac materials"
Jeong Min (Jane) Park: "Emergent Quantum Phenomena in Moiré Superlattices"
Prof. Collin Broholm: "Classical and quantum spin fluctuations in frustrated magnets"
Prof. Jeanie Lau: "Superconductors and Semiconductor Flatlands"
Prof. Jeanie Lau: "Fabrication of high quality 2D materials and heterostructures"
Prof. Moty Heiblum: "Topological Thermal Hall Conductance of Even Denominator Fractional States"
Prof. Yuan Cao: "Real-Time Twistronics on a Chip", Lecture 1 of 1
Prof. Biao Lian: "Interaction and phases in Chiral Luttinger Liquid Theory", Lecture 1 of 2
Prof. Zhurun (Judy) Ji: "An Introduction to Microwave Sensing of Quantum Materials, Lecture 1 of 1
Prof. Barry Bradlyn: "(Non) Linear Response and Quantum Geometry", Lecture 2 of 2
Prof. Moty Heiblum: "An Experimental Introduction to the Quantum Hall Effect", Lecture 1of 1
Prof. Barry Bradlyn: "(Non) Linear Response and Quantum Geometry" Lecture 1 of 2
Prof. Allan MacDonald: "Moire' Materials Physics", Lecture 2 of 2
Prof. Allan MacDonald: "Morie' Material Physics", Lecture 1 of 2
Prof. Biao Lian: "Interactions and Phases in Chiral Luttinger Liquid Theory", Lecture 2 of 2
Prof. Andrei Bernevig (Princeton), "Moire Fractional Chern Insulators"
Prof. Andrei Bernevig: Mapping of interacting flat bands with concentrated Berry curvature...
Prof. Michael Zaletel (UC Berkeley): Intervalley coherence - a theory of everything (moiré), Talk-2
Prof. Michael Zaletel (UC Berkeley): Intervalley coherence - a theory of everything (moiré) - Talk 1
Prof. Ben Feldman, "Tuning correlations, topology, and magnetism in semiconductor moiré materials"
Prof. Ming Yi (Rice University), "Flat bands in quantum materials"
Prof. Ben Feldman (Stanford), "Exploring the magic of twisted trilayer graphene"
Prof. Edward Witten (IAS), "Scale and Conformal Invariance in Sigma Models"
Prof. Nathalie de Leon (Princeton): Measuring dynamics & correlations with nanoscale quantum sensors
Prof. Nathalie de Leon (Princeton), "Introduction to quantum sensing with NV centers in diamond"
Prof. Di Xiao (U.Washington): Flat band physics in twisted transition metal dichalcogenides bilayers
Prof. Xiaodong Xu: Magnetism, interaction & topology in twisted transition metal dichalcogenides (2)
Prof. Xiaodong Xu: Magnetism, interaction & topology in twisted transition metal dichalcogenides (1)
Prof. Eun-Ah Kim (Cornell), "Fractionalization due to orbital geometric frustration"