Quantum confinement enhances the binding energy of excitons, which are electron-hole pairs formed upon light absorption. The increased exciton binding energy results in stronger light-matter ...

"Up to this year, most observations were consistent, with dark energy being the cosmological constant. Nonetheless, 2024 was full of hints pointing out this might not be the case." 2024 was a big ...

This confinement leads to discrete energy levels for the charge carriers, a phenomenon exploited in various electronic and optoelectronic applications. (Image: Wikimedia Commons, CC-SA 3.0) The ...

Thus, as one increases the radius (size), the confinement energy decreases, but never reaches zero. i.e., the lowest possible energy for the quantum dot sample is not zero. 1. Introduction Quantum ...

Black hole quantum effects are usually thought to be too small to have any observable signatures. This is indeed the case for ...

Their size-dependent colors are essentially a naked-eye, ambient-condition visualization of the quantum confinement effect. In recent years, more exotic quantum effects have been observed using ...

and the Quantum and Dark Matter Lab where Goryachev works at UWA has significant experience in applying such quasiparticles' properties to detect and understand other very low energy systems.

Dark Current,Photodetector,Quantum Efficiency,Schottky Barrier,Schottky Barrier Height,Waveguide Photodetector,Band Bending,Band Gap,Band Offset,Band Tail,Bottom ...

Advection Diffusion Equation,Amount Of Charge,Biaxial Strain,Carrier Mobility,DC Electric Field,Dark Current,Density Of States ... Photoluminescence Spectra,Quantum Confinement,Quantum Confinement ...