Single-Photon Generation, Storage, Synchronization, and Interaction in Hot Atomic Vapor

Learn about complex quantum states of light and their applications in quantum technology through this research talk that explores the creation of multi-photon entangled states using atomic vapor cells. Discover the implementation of noise-free quantum memory and identical memory-compatible single-photon sources, along with recent developments in active photon source synchronization. Explore the scientific and engineering challenges of creating scalable quantum states, including demonstrations of quantum advantage, super-sensitive metrology, and measurement-based quantum computation. Examine specific research findings from published works on quantum memory implementations and single-photon source development, while gaining insights into the potential future developments of few-photon-level non-linear components in hot atomic vapor systems.