TEV KUYKENDALL, ARCHANA RAJA
Nanoscale hybrids, at the interface between conventional CMOS and next generation materials, have unique properties that make them interesting candidates for optical computing and sensing. Optical computing has gained much attention recently as a complementary paradigm to electronic computing, with the potential to drastically increase speed, reduce heat, and incorporate novel optical properties such as interference effects, multiband data transmission and multilevel excitation phenomena. Optical sensing is integral to interfacing between optical signals and conventional electronics. Nanoscale properties and architectures can offer unique capabilities, such as sub-wavelength detection and signal processing. Of particular interest for this symposium is unique materials, structures and properties.
Thursday, August 14
Symposium Location: B50 Auditorium
Symposium Schedule:
1:00 – 1:30 pm
Intrinsic Optical Bistability of Lanthanide-doped Photon Avalanching Nanocrystals
Artiom Skripka, Oregon State University
1:30 – 2:00 pm
Twisting Light with Nanomachines
Haoning Tang, University of California, Berkeley
2:00- 2:30 pm
3D NanoPhotonic-NanoElectronic Neuromorphic Computing
S. J. Ben Yoo, University of California, Davis
2:30 – 3:00 pm
Break
3:00 – 3:30 pm
Exciton transfer and interface excitons in mixed-dimensional heterostructures
Yuichiro Kato, RIKEN
3:30 – 3:45 pm
Twisted Epitaxy of Gold Nanodiscs Grown in Twisted Bilayer Molybdenum Disulfide
Yi Cui, Stanford University
3:45- 4:00 pm
Lithographically Defined Synthesis of Transition Metal Dichalcogenide Alloys and Lateral Heterostructures
Misael Campos, Berkeley Lab
4:00 – 4:15 pm
Mapping mixed halide perovskite superlattices for superradiant emission
Katherine Inzani, University of Nottingham
4:15 – 4:30 pm
Novel concepts for single photon detection based on nanohybrids
Francois Leonard, Sandia National Laboratories