Latest Articles for Optics

A deep dive into electron weak localization and terahertz optical responses.

Research reveals new ways to connect distant quantum systems using cavity magnonics.

Researching unique light states for advancements in quantum technology.

Researchers study time-varying structures to enhance light emissions.

Researchers study how light interacts with fibers, revealing unique properties.

New designs improve optical traps for manipulating tiny particles.

Examining wave behavior in unique materials for technological applications.

New machine learning methods enhance photon state analysis for quantum technologies.

Examining the impact of discrete conservation laws on wave phenomena in science.

A new method improves terahertz radiation generation with low noise and high precision.

Research sheds light on worm-like micellar solutions and their applications in optics.

Amorphous materials offer unique properties for advancements in optics and electronics.

Exploring the potential of identical particles as resources for non-local correlations in experiments.

A look into creating N00N states for precise measurements using interferometers.

Optical wireless communication offers high-speed data transfer with light waves.

Study reveals how laser light alters with gold nanorods.

New techniques improve speed and accuracy in studying light interactions with materials.

An analysis of Gaussian wave packet behavior across various potential fields and methods.

Microcombs are evolving to enhance measurement accuracy through noise reduction techniques.

A new method improves thin film production efficiency in electronics and optics.

A new method enhances metasurface efficiency and simplifies manufacturing processes.

A look at squeezed light and its applications in various fields.

Researchers manipulate topological polaritons within optomechanical ladders for advanced applications.

Research reveals scandium alloyed aluminum nitride's potential in electro-optic applications.

New silver precursor enhances electron beam writing for nanoscale structures.

New waveguides improve photon pair generation for quantum technologies.

Learn about laser-induced periodic surface structures and their practical applications.

Researchers examine how light changes behavior in atomic systems during phase transitions.

Research focuses on finding innovative optical materials using machine learning and vast databases.

Examining how nonlinearity in the cubic nonlinear Schrödinger equation influences wave dynamics.

Examining how light interacts with disordered materials and its implications.

Discovering new methods for precise phase measurement using quantum mechanics.

Research reveals the significance of phase changes in Rhenium disulfide for advanced applications.

Learn about space-time wave packets and their potential impact on technology.

Scientists directly observe the transition of light from X-shape to O-shape.

Examining the structure and function of one-dimensional photonic crystals.

Research explores how Fano mirrors enhance ground-state cooling in optomechanical systems.

Discover how particles behave when moving between different mediums.

A look at how bispinors represent electromagnetic fields and their practical applications.

Chiral-gain materials change light responses, leading to innovative photonic technologies.