How do you take measurements using one of the most sensitive scales in the world? Researchers at TU Wien have demonstrated ...

Physicists at the National Institute of Standards and Technology (NIST) have linked together, or "entangled," the mechanical motion and electronic properties of a tiny blue crystal, giving it a ...

CTS Corporation (NYSE: CTS) today announced the launch of the TSX Crystal with Integrated Thermistor , a significant ...

Researchers developed a frequency-comb-referenced terahertz Fabry-Pérot interferometry platform that measures lithium-ion ...

Today, a vast number of micro-manufactured sensors, actuators and components vibrate at frequencies in the high MHz range. Some examples of these high-frequency vibrating systems include surface ...

Multiple domains provide designers and test engineers with complementary views of acquired signals. Oscilloscopes originated as instruments that measure electrical signals in the time domain. The ...

Time crystals are an enigmatic phase of matter in which a quantum mechanical system displays repetitive, observable motion – they spontaneously break the time translation symmetry. On the other hand ...

The so-called f-to-2f method, which is used to measure carrier-envelope offset (CEO) frequency, is among the key techniques of optical frequency combs, which have had significant impact on ...

With a height of just 1 mm, the MF series surface-mount (SMT) crystals measure 3.5 mm x 6.2 mm and offer frequencies from 12 MHz to 50 MHz. They can also be supplied in frequencies from 40 MHz to 100 ...

As mentioned in part 1 of this series, temperature fluctuation is the most significant cause of frequency drift of crystal. There are a few options a system engineer can consider to mitigate this ...