Phys.org February 5, 2024 Confinement of light into nanocavities which enhances light–matter interactions generally come at the cost of absorption and low resonator quality factors. An international team of researchers (Israel, USA – Cornell University, Kansas State University, Germany, Spain) suggested an alternative optical multimodal confinement mechanism, unlocking the potential of hyperbolic phonon polaritons in isotopically pure hexagonal boron nitride. They produced deep-subwavelength cavities and demonstrated several orders of magnitude improvement in confinement approaching the intrinsic quality factor of hexagonal boron nitride polaritons. The quality factors they obtained exceeded the maximum predicted by impedance-mismatch considerations indicating that confinement was boosted […]
Tag Archives: Nonlinear optics
A molecule of light and matter
Science Daily August 1, 2022 An international team of researchers (Austria, Germany) has observed a mechanical deformation of a cloud of ultracold 87Rb atoms due to the collective interplay of the atoms and a homogenous light field. This collective light scattering resulted in a self-confining potential with interesting features: It exhibited nonlocal properties, attractive for both red- and blue-detuned light fields and induced a remarkably strong force that depends on the gradient of the atomic density. In the article they discuss their experimental observations framework of a theoretical model based on a local-field approach for the light scattered by the […]
Intelligent optical chip to improve telecommunications
Phys.org October 15, 2021 An international team of researchers (Canada, France, China, Australia) developed and demonstrated a self-adjusting on-chip optical pulse-shaper based on the concept of temporal coherence synthesis. The scheme enables on-the-fly reconfigurability of output optical waveforms by using an all-optical sampling technique in combination with an evolutionary optimization algorithm. They showed that particle-swarm optimization can outperform more commonly used algorithms in terms of convergence time. The system combines all key ingredients for realizing fully on-chip smart optical waveform generators for next-generation applications in telecommunications, laser engineering, and nonlinear optics. The team’s next steps include the investigation of more […]