Nanoscale Science and Technology Division (NSTD): This Division explores the science and technology that emerges when material is shrunk to the nanoscale. Researchers from around the globe will present their work on topics such as nanoscale devices and quantum systems exploiting nanoscale design and characterization. The role of nanomaterials in novel devices and structures is highlighted, particularly their surface chemistry, energetics, mechanics, and morphology. Specific emphasis will be placed on the key connections between nanoscale physical and chemical phenomena as probed and manipulated by scanning probe tips, electromagnetic radiation, electrons, and ions, as well as approaches to harness these phenomena for nanoscale and atom-by-atom device and material fabrication. All of this understanding is enhanced by recent developments in machine learning and artificial intelligence. The NS program particularly promotes novel physical phenomena emerging in these nanosystems, and their applications for quantum information systems, sensing, and beyond.
NS1+2D+BI+SS-MoM: Combined Nanoscale Microscopy
- Fernando A. Castro, National Physical Laboratory, UK, “Combined Metrology at the Nanoscale: Advanced Scanning Probe Microscopy to Evaluate Complex Semiconductors”
NS2+2D+BI+EL+SS-MoM: Chemical Identification with Scanning Probe Microscopy
- Eric Potma, University of California Irvine, “Nanoscale imaging with photo-induced force microscopy”
NS+EM+MN-MoA: Nanoscale Devices, Structures and Materials
NS+2D+EM+MN+SS-TuM: Scanning Probe Microscopy
- Sergei Kalinin, University of Tennessee Knoxville, “AVS Medard W. Welch Award Talk: Microscopy is All You Need: The Rise of Autonomous Science”
NS2+2D+EM-TuA: Light-Matter Interactions at the Nanoscale
- P James Schuck, Columbia University, “Highly Tunable Room-Temperature Exciton-Polariton Strong Coupling from Monolayer Wse2 in Nanocavities”
NS1+2D+EM+MN-TuA: Nanofabrication and Characterization of Low-Dimensional Materials
- Kate Reidy, MIT, “Atomic-Scale Design and Defect Networks at the 2D/3D Interface”
NS-TuP: Nanoscale Science and Technology Poster Session