Editor’s Picks

  1. New Quantum Phenomena Helps To Understand Fundamental Limits Of Graphene Electronics
    7/26/2019

    A team of researchers from the Universities of Manchester, Nottingham and Loughborough have discovered quantum phenomena that helps to understand the fundamental limits of graphene electronics.

  2. Researchers Develop Materials That Can Revolutionize How Light Is Harnessed For Solar Energy
    8/13/2019

    Researchers at Columbia University have developed a way to harness more power from singlet fission to increase the efficiency of solar cells, providing a tool to help push forward the development of next-generation devices.

  3. Tiny Laser Has Potential In Drug Quality Control, Medical Diagnosis, Airplane Safety
    7/24/2019

    In a major step toward developing portable scanners that can rapidly measure molecules on the pharmaceutical production line or classify tissue in patients’ skin, a Princeton-led team of researchers have created an imaging system that uses lasers small and efficient enough to fit on a microchip.

  4. Dresden Physicists Use Nanostructures To Free Photons For Highly Efficient White OLEDs
    7/11/2019

    Thanks to intensive research in the past three decades, organic light-emitting diodes (OLEDs) have been steadily conquering the electronics market - from OLED mobile phone displays to roll-out television screens, the list of applications is long.

  5. Thinnest Optical Waveguide Channels Light Within Just Three Layers Of Atoms
    8/12/2019

    Engineers at the University of California San Diego have developed the thinnest optical device in the world—a waveguide that is three layers of atoms thin.

  6. Atomic ‘Trojan Horse’ Could Inspire New Generation Of X-Ray Lasers And Particle Colliders
    8/12/2019

    How do researchers explore nature on its most fundamental level? They build “supermicroscopes” that can resolve atomic and subatomic details. This won’t work with visible light, but they can probe the tiniest dimensions of matter with beams of electrons, either by using them directly in particle colliders or by converting their energy into bright X-rays in X-ray lasers.

  7. How To Trick Electrons To See The Hidden Face Of Crystals
    7/25/2019

    The 3D analysis of crystal structures requires a full 3D view of the crystals. Crystals as small as powder, with edges less than one micrometer, can only be analysed with electron radiation. With electron crystallography, a full 360-degree view of a single crystal is technically impossible.

  8. Mapping The Energetic Landscape Of Solar Cells
    8/12/2019

    A new spectroscopic method now makes it possible to measure and visualise the energetic landscape inside solar cells based on organic materials. It was developed by a research team led by Prof. Dr Yana Vaynzof, a physicist at Heidelberg University.

  9. New Group Will Exploit 'Platform' Technologies To Catalyse Markets For Advanced Optoelectronics
    3/8/2005
    Today, the optoelectronic solutions provider Intense announces the formation of a division targeting emerging markets for advanced optical devices
  10. Largest Parity Violation And Other Adventures In Table-Top Physics
    10/20/2010
    Exploring the fundamental laws of physics has often required huge accelerators and particles colliding at high energies. But table-top experiments, usually employing exquisitely tuned lasers and sensitive detectors, have also achieved the precision necessary for exploring the basic laws of physics at the heart of relativity and quantum mechanics.