Do more with one link - claim and personalize your FREE link today! Effortlessly schedule, video meet, message chat, network, share materials, e-sign, etc – all in one spot. Collaborate, Nurture connections, Improve client services, Expedite deal closures, and more. 💼 Join FREE!!

Recent Comments

    nonlinearity tagged posts

    Silicon could be a Photonics Game-Changer

    April 29, 2021, Categories  Physics, Technology/Electronics

    Ben_murdin_photonics

    New research from the University of Surrey has shown that silicon could be one of the most powerful materials for photonic informational manipulation — opening up new possibilities for the production of lasers and displays.

    While computer chips’ extraordinary success has confirmed silicon as the prime material for electronic information control, silicon has a reputation as a poor choice for photonics; there are no commercially available silicon light-emitting diodes, lasers or displays.

    Now, in a paper published by Light: Science and Applications journal, a Surrey-led international team of scientists has shown that silicon is an outstanding candidate for creating a device that can control multiple light beams.

    The discovery means that it is now possible to produce silicon pro...

    Read More

    ‘Egg Carton’ Quantum Dot Array could lead to Ultralow Power Devices

    March 5, 2021, Categories  Physics, Technology/Electronics

    An illustration of the egg crate electronic structure, shown between two mirrors so that the red laser light resonates. The polaritons, trapped in the pockets, are represented by the sum of their parts: a green exciton, with electron and hole shown inside, attached to a red lightwave. Even with just a few excitons in the wells, the energy required to add a new one begins to jump
      An illustration of the egg crate electronic structure, shown between two mirrors so that the red laser light resonates. The polaritons, trapped in the pockets, are represented by the sum of their parts: a green exciton, with electron and hole shown inside, attached to a red lightwave. Even with just a few excitons in the wells, the energy required to add a new one begins to jump. Credit: Long Zhang, Deng Lab, University of Michigan.

    A new path toward sending and receiving information with single photons of light has been discovered by an international team of researchers led by the University of Michigan...

    Read More