Using muon spin rotation spectroscopy, researchers from Japan and Canada have successfully captured the rapid conversion of ...

Terahertz (THz) radiation, which occupies the frequency band between microwaves and infrared light, is essential in many next ...

Microfluidics has become a revolutionary field with multiple applications across scientific disciplines, such as chemistry, biology, physics, and engineering. Manipulating small volumes of fluids in ...

Terahertz (THz) radiation underpins many next-generation technologies and advances in materials science, but current THz ...

Accurately and rapidly quantifying protein content is essential for modern biology, biochemistry, and biophysics laboratories worldwide. Researchers are focused on determining total protein content, ...

Optoelectronic materials, which exhibit properties of both electronics and optics, have revolutionized various technologies, including solar cells, light-emitting diodes (LEDs), and sensors. These ...

Force spectroscopy relies on the precise measurement of forces acting on a probe as it interacts with a sample. The key principles of force spectroscopy include: AFM-based force spectroscopy is the ...

X-rays, a type of electromagnetic radiation with wavelengths from 0.01 to 10 nanometers, pack enough energy to pierce materials and interact with inner-shell electrons. 1 When they hit a sample, ...

While many people often use spectroscopy and spectrometry interchangeably, there are some subtle differences in their exact meanings and the associated experimental techniques they are used to ...

When a laser experiment fails to produce the expected flash of light, most researchers would assume something went wrong with ...