Quantum Optics

Chairs

	Shima Rajabali Delft University of Technology (NL)
	Natalia Bruno CNR-INO/LENS (IT)
	Marco Ornigotti Faculty of Engineering and Natural Sciences, Tampere University (FI)

Synopsis

Nonlinear and quantum optical systems enable interactions and transformations of light that go beyond the limits of linear and classical optics, accessing new physical regimes and measurement capabilities. This topical meeting brings together leading researchers working in the field of nonlinear and quantum optics to discuss recent achievements and explore new directions. This TOM covers phenomena of both fundamental and technological relevance, as well as aspects of systems where they arise, such as cavities, interferometers, and quantum emitters. Topics discussed in this TOM include, but are not limited to: fundamental nonlinear and quantum optical phenomena such as Frequency conversion, parametric, and Raman processes, novel materials and platforms for nonlinear/quantum optics, generation and manipulation of nonclassical states of light, cavity QED systems and cold atoms, , optical switching, quantum information processing and optical computing, nonlinear/quantum optical sensing, , quantum transducers, integrated systems for nonlinear/quantum photonics, and nonlinear/quantum metasurfaces.

Topics

Fundamental nonlinear optical phenomena
Quantum optical effects and nonclassical light
Cavity QED in solid state systems and cold atoms
Novel materials and platforms for nonlinear and quantum optics
Metasurfaces and engineered nanostructures
Integrated and on-chip nonlinear/quantum photonic systems
Nonlinear and quantum optics for quantum technologies
Quantum information processing and computing with light