The study introduces a unified analytical model for intensity-based optical fiber angular displacement sensors, validated through experimental testing for tilt angles up to ±20 ° and distances ...

Japan’s H2L unveils a “Capsule Interface” that lets users control robots with muscle movement, enabling immersive remote ...

Optical fiber displacement sensors are extensively used in pre-warning of landslide and earthquake. Here, we propose a highly sensitive micro-displacement sensor based on side-wall (SR) resonance ...

Tools that offer early and accurate insight into plant health—and allow individual plant interventions—are key to increasing ...

A micro-displacement sensing head based on two aligned cleaved fibers inserted into an optical fiber ring and interrogated by an optical time-domain reflectometry is presented. The sensor ...

At subsecond time-scales and micron length-scales, cells behave as fluid-filled sponges in which shape changes necessitate intracellular fluid redistribution. However, whether these cytoplasmic ...

Aston University researchers have developed a new class of optical microresonators, miniature optical devices that strongly ...

We develop TABS: a transient acoustic wave-based Brillouin optical time domain analysis sensor for high-spatiotemporal-resolution distributed sensing, exploring the state imaging of evacuated tube ...

Ams OSRAM is offering interactive, real-life demonstrations at Sensors Converge 2025 starting Wednesday this week at Santa ...

Dr. Min-Chul Park stated, “The ultra-low noise organic optical sensor technology developed this time can precisely detect obstacles even in low visibility environments such as fog, and can be ...