카지노 토토 Optics Circus with Acrobatic Atoms and Flying Photons

" 카지노 토토 networks are composed of 카지노 토토 nodes that interact coherently through 카지노 토토 channels, and open a broad frontier of scientific opportunities. An exciting frontier in this endeavor is the integration of otherwise `simple 카지노 토토 elements into complex 카지노 토토 networks. In this context, there is active research to achieve lithographic 카지노 토토 optical circuits, for which atoms are trapped near micro- and nanoscopic dielectric structures and wired together by photons propagating through the circuit elements. Single atoms and atomic ensembles endow 카지노 토토 functionality for otherwise linear, passive optical circuit, and, thereby, the capability to build 카지노 토토 optical many-body systems component by component.
In this talk, I will briefly discuss our results in loading ultracold atoms into a state-insensitive nanofiber optical trap, and a recent result with localized single atoms in 1D photonic crystal waveguides exhibiting band-edge collective nonlinearity. By trapping single atoms within our photonic crystal waveguide, new opportunities will emerge for novel 카지노 토토 transport phenomena, tunable long-range atomic interactions, and control of 카지노 토토 vacuum forces. I will then discuss another frontier of applying these 카지노 토토 optics toolboxes to outstanding questions in open many-body dynamics, with specific attention to driven-dissipative dipolar 카지노 토토 matters. Here, the competition between coherent and dissipative many-body dynamics could drive the system into novel non-equilibrium 카지노 토토 phases, exhibiting extremely massive entangled steady states, topological order, and 카지노 토토-coherent crystallization dynamics, heretofore not existed in the natural world."