Based on what a test has been targeted, getting outcomes from a blood test could take anywhere from one day to a week.
Microplastics - plastic particles smaller than 5 mm in size - are a major cause of environmental pollution, and this can no longer be overlooked by society.
A common way of designing a new large building is to make a scale model and test it in a wind tunnel.
A multidisciplinary research team at the University of Tokyo, under the direction of Hiroaki Shinkawa created an extended photonic reinforcement learning scheme that progresses from the static bandit issue to a more difficult dynamic environment.
The University of Texas Tabletop Terawatt Laser (UT3) has been successfully upgraded to a new and enhanced performance for powering a small particle accelerator, according to a recent announcement by TAU Systems, a manufacturer of ultrafast, portable laser-plasma accelerators.
TAU Systems, the producer of ultrafast, compact laser-plasma accelerators, today announced the successful upgrade of the existing University of Texas Tabletop Terawatt Laser (UT3), to a new and improved performance for powering a compact particle accelerator.
A fluorescence microscope with structured lighting for quick super-resolution imaging across a large field of view has been created by researchers.
New research headed by Vinod M. Menon and his team at The City College of New York illustrates that trapping light within magnetic materials may radically improve their inherent characteristics.
Q Source, a provider of custom solutions for the Bio-Medical, Electronic, Pharmaceutical Manufacturing industries, is excited to announce the addition of the next-generation Mantis Stereo Microscopes from Vision Engineering to its product lineup.
Since the invention of the world's first transistor by scientists at Bell Labs in December 1947, there has been a significant revolution in microelectronics technology that has had a profound impact on lifestyles worldwide.
Precision Glass & Optics (PG&O), a global leader in optical manufacturing, precision thin-film coatings, and complete optical solutions, announces the company’s latest capability, the extended operating wavelength range of finished optics from the mid-ultraviolet (0.2 µm) out to the longwave infrared spectrum (15 µm).
In the dynamic imaging of interfacial electrochemistry, advancement has been made by the research group headed by Professor Xianwei Liu from the Department of Environmental Science and Engineering of the University of Science and Technology of China (USTC) of the Chinese Academy of Science (CAS).
A research team from the University of Science and Technology of China (USTC) of the Chinese Academy of Sciences (CAS) under the direction of Prof. Dong Wu suggested a femtosecond laser 2-in-1 writing multi-material processing strategy to fabricate micromachined joints made of temperature-sensitive hydrogels and metal nanoparticles and created multi-jointed humanoid micromachines with multiple deformation modes (>10).
For the processing of materials, lasers are a crucial instrument. They are capable of cutting, welding, and removing material. High-precision microstructures, such as those required for smartphone screens and automobile technologies, may be made using a particular class of lasers called femtosecond lasers.
Researchers have created a low-cost, easy-to-build 3D nanoprinting technology capable of producing arbitrary 3D objects with extremely minute details.
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