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Results 1 - 10 of 30 for Tungsten
  • Article - 10 Jan 2025
    Discover how different light sources, including LEDs, arc lamps, and lasers, impact optical microscopy techniques like fluorescence and live-cell imaging for precise research
  • Article - 2 Dec 2024
    Laser isotope separation enhances isotope production for medical diagnostics, space exploration, and environmental research, offering precision and scalability in isotope applications.
  • Article - 31 Jul 2024
    Atomic fluorescence spectroscopy uses the characteristic ways light interacts with the electronic structure of atoms to identify trace metals at very low concentrations, offering high sensitivity and...
  • Article - 15 Jul 2024
    This article delves into the different types of advanced optical materials, examining their distinct characteristics and uses in everyday devices, and showcasing how these materials drive...
  • Article - 13 Jun 2024
    This article explains the function of collimating lenses, which are used to transform divergent or convergent light into a parallel beam, highlighting their importance.
  • Article - 24 May 2024
    Tabletop SEMs have gone through a remarkable evolution during the past decade, establishing themselves as an optimum solution for users looking for the “next level” beyond optical stereo microscopy.
  • Article - 14 Jan 2022
    Electron microscopy (EM) is an experimental method employed to capture high-resolution images of microscopic samples. It is a powerful technique to study the detailed structure of biological specimens...
  • Article - 2 Dec 2021
    Transparent materials influence the phase evolution of transmitted radiation, however, chromatic dispersion is an issue. Ossiander, M et al.'s article published in Nature Communications experimentally...
  • Article - 5 Nov 2021
    The idea of low-energy electronics is designing electrical components with minimal resistance that reduce their overall energy use. It is estimated that, worldwide, over 20 billion kWh of electricity...
  • Article - 15 Oct 2021
    A team of researchers at Nagoya University has found a way to create light-emitting diodes (LEDs) that will emit chiral valley polarized light and operate at room temperature.

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