Over the past few years, engineers and material scientists have been trying to devise new optical systems in which light particles (i.e., photons) can move freely and in useful ways, irrespective of ...

Abstract: Stoichiometric tetragonal disordered $\mathrm{NaEu}\left(\mathrm{WO}_{4}\right)_{2}$ laser crystal is grown by the Czochralski method and its polarized spectroscopic properties are studied.

A time crystal is a form of matter that shows continuous, repeating patterns over time, much like how atoms in a normal crystal repeat in space. Examples once existed in only complex, quantum matter, ...

Edited by Mohammad Hafezi, University of Maryland, College Park, MD; received June 20, 2024; accepted October 1, 2024 by Editorial Board Member Hui Cao ...

Abstract: This paper presents a simulation model for the description of incoherent polarized light propagation within the application of fiber-optic current sensing in high-voltage engineering. Based ...

Scientists have developed the first-ever time crystals that are visible to the human eye, and they could one day make their way onto $100 bills. The time crystals emerge from the kinks that appear ...

Bo Zhen (right) and postdoctoral researcher Li He developed a system for guiding light through tiny crystals in ways that allow it to navigate undeterred bu bumps and defects. Their work could lead to ...

Light exposure switches heat flow in barium titanate by altering its structure, offering a reversible method for dynamic thermal control in ferroelectric materials. (Nanowerk Spotlight) We can switch ...