Stanford Advanced Materials (SAM) is pleased to announce the launch of a new series of optical and nonlinear crystals. The ...

Researchers develop a highly efficient method to provide coherent light of any wavelength from visible to mid-infrared with a ...

Explore how PC-based digitizers are revolutionizing medical acoustic microscopy systems by enabling precise, high-resolution ...

Explore how GaGe digitizers enable high-resolution ultrasound imaging and diagnostics by capturing microsecond-level signals ...

Everything is born out of nothing,” said Ivan Smalyukh, a physicist at the University of Colorado Boulder. “All you do is shine a light, and this whole world of time crystals emerges.”. In a paper in ...

Optical Zonu Corporation, a leader in radio frequency over fiber (RFoF) solutions, announced today that its J-Chassis and pluggable CWDM Modules are being deployed by the Duke Quantum Center (DQC) to ...

In collaboration with the US Air Force Research Laboratory (AFRL), a major research partner using its photonics-based quantum ...

The ability to transform visible light, which is used in IonQ's trapped ion quantum systems, into telecom wavelengths is essential for transmitting quantum information efficiently over long-haul fiber ...

Scintillators convert radiation energy into light and are utilized in a variety of fields including medicine and security. Of ...

However, traditional interconnection technologies such as copper cables and pluggable optical modules are quickly approaching their physical limits, forming a "compute wall" that blocks the upper ...

Bright squeezed light, combining quantum noise reduction with high optical power, is a valuable resource for quantum sensing. To achieve this goal, scientists in China developed a nonclassical hybrid ...

With the explosion of large models and generative AI applications, the traffic within and between data centers is experiencing exponential growth. This creates an almost limitless demand for network ...