Rice University physicists Matthew Foster and Seth Davis want to view a vexing quantum puzzle from an entirely new perspective. They just need the right vantage point and a place colder than deep ...

Limiting quantum particles to move in one, two, or three dimensions has led to the observation of many striking phenomena. A prime example is the quantization of the Hall conductance measured in 2D ...

The two-dimensional crystal on top of the microscopically small wire. (Courtesy: Florian Dirnberger) Using a technique known as strain engineering, researchers in the US and Germany have constructed ...

This video explains the concept of acceleration in 1D motion, breaking down key principles and formulas. Whether you're new to kinematics or looking to refresh your knowledge, this guide will help you ...

In this video, we introduce the fundamentals of kinematics in 2D, focusing on projectile motion. Learn how to break down the horizontal and vertical components of motion, apply key equations, and ...

Engineers have created a patent-pending method that creates layered perovskite nanowires with exceptionally well-defined and flexible cavities that exhibit a wide range of unusual optical properties ...

Smooth transition The polymers applied to the reflective surface trap the photon gas in a parabola of light. The narrower this parabola is, the more one-dimensionally the gas behaves. (Artistic ...

Physicists have created a one dimensional gas out of light particles for the first time. Studying how the photon gas behaves could help researchers discover some yet-unknown quantum optical effects.

Physicists propose a new vantage point to observe quantum fractionalization. Rice University physicists Matthew Foster and Seth Davis want to view a vexing quantum puzzle from an entirely new ...