A world leader in the design and development of ultrafast femtosecond and picosecond infra-red lasers is helping researchers characterize single photon detectors (SPDs), essential for many applications such as quantum key distribution, LIDAR, and sensing and characterization of samples using fluorescence lifetime measurement.
A world leader in the development of infra-red lasers, Scotland’s Rural College (SRUC) and the UK Centre for Ecology and Hydrology (UKCEH), supported by Innovate UK, will work together to develop and test new instrument technology for real-time in-the-field measurement of common greenhouse gases (CHGs) and atmospheric pollutants such as methane, carbon dioxide, nitrous oxide, and ammonia.
According to a study published in Light: Advanced Manufacturing, researchers developed femtosecond laser direct writing (FsLDW), a cutting-edge approach for sculpting complicated micro-optical devices with nanoscale accuracy (the width of a few human hairs).
In an article published in Scientific Reports, researchers developed a predictive model using infrared spectroscopy to assess postoperative infection risk in kidney stone patients, offering a novel tool for improving treatment outcomes.
By Muhammad Osama
28 Aug 2024
An international group of scientists from the Sichuan University in China and Tampere University in Finland have developed a frequency downconversion temporal ghost imaging (TGI) scheme that allows the operation regime to be extended to arbitrary wavelength regions where fast modulators and detectors are not available.
TAGARNO, a renowned Danish manufacturer of high-quality digital microscopes, is excited to announce the launch of its new product configurator specifically designed for the T50 Digital Microscope, the latest addition to TAGARNO’s cutting-edge digital microscopy lineup.
In an article published in Earth, Planets and Space, researchers introduce the HySCAI system, a groundbreaking tool that captures 2D auroral images with full spectral data, advancing our understanding of auroral phenomena.
By Muhammad Osama
26 Aug 2024
Researchers at the University of Arizona have developed the world's fastest electron microscope, capable of capturing freeze-frame images of electrons in motion.
ElFys, a Finnish company specialising in black silicon photodiode technology, has announced that it has achieved a significant milestone by delivering the first customer samples of its black silicon-based photodetectors from a mass production foundry.
Researchers at DGIST's (President Kun-woo Lee) Department of Energy Science and Engineering, led by Professor Ji-woong Yang, in conjunction with Professor Moon-kee Choi of UNIST’s Department of New Materials and Dr. Taeg-hwan Hyun of the IBS Nanoparticle Research Center, have developed a double-layer dry transfer printing technology that simultaneously transfers layers that transfer electrons and light onto a substrate. Their work was published in Nature Photonics.
Resolve Optics announce a new 6x Non-Browning Zoom Lens design optimized for a 1-inch sensor format shielded camera.
Multi-axis motion solutions for Aerospace Applications, new from PI.
Image Credit: Physik Instrumente
Auburn, MA – The number of active satellites in space ...
Researchers at Drexel University have developed a shunt that can expand when exposed to light. If successfully developed, this innovation could decrease the number of open-chest surgeries these children must endure.
In a recent study in Land, researchers evaluated the effectiveness of vis-NIR spectroscopy for monitoring copper levels in urban soils, highlighting the importance of sample similarity in accurate Cu estimation models.
By Muhammad Osama
20 Aug 2024
Researchers at Swansea University have created a novel imaging approach for neutral atomic beam microscopes that allows for significantly faster acquisition of microscope images.