Researchers from Tokyo Metropolitan University have devised a way to measure both the temperature and velocity profiles of fluid in a convective plume at millimeter length scales in 3D. They combined ...

Researchers from Tokyo Metropolitan University have devised a way to measure both the temperature and velocity profiles of fluid in a convective plume at millimeter length scales in 3D. They combined ...

The "Temperature and Temperature/Humidity Mapping Guide" is now available on the company's Web site. This free best practices guide provides step-by-step instructions for warehouse and production ...

Imaging temperature fields at the nanoscale is a central challenge in various areas of science and technology. Nanoscopic hotspots, such as those observed in integrated circuits or plasmonic ...

Cellular functions are fundamentally regulated by intracellular temperature, which influences biochemical reactions inside a cell. Despite the important contributions to biological and medical ...

(Nanowerk Spotlight) Green Fluorescent Protein (GFP) – originally found in a jellyfish – has played a crucial role in life science research, providing insights to many fundamental questions that have ...

RENO, Nev. — The Reno-Sparks Heat Mapping Project Team has completed a temperature mapping campaign to identify areas with the highest heat concentrations. Thomas Albright, an Associate Professor and ...

VENICE/MADRID - A team of researchers from Ca’ Foscari University of Venice and the Universidad Autónoma de Madrid has developed a groundbreaking technique that maps temperature in three dimensions ...

The team succeeded in mapping the fluid flow profile around a microscopic heat source in a body of water in three-dimensions. Tokyo, Japan – Researchers from Tokyo Metropolitan University have devised ...