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2 results

  • 1 - Gaussian Optics and Uncertainty Principle

  • Yaping Zhang, Kunming University of Science and Technology, China, Ting-Chung Poon, Virginia Polytechnic Institute and State University
  • Book:
    Modern Information Optics with MATLAB
    Published online:
    22 December 2022
    Print publication:
    05 January 2023, pp 1-20

  • Summary

    This chapter contains Gaussian optics and employs a matrix formalism to describe optical image formation through light rays. In optics, a ray is an idealized model of light. However, in a subsequent chapter, we will also see a matrix formalism can also be used to describe, for example, a Gaussian laser beam under diffraction through the wave optics approach. The advantage of the matrix formalism is that any ray can be tracked during its propagation though the optical system by successive matrix multiplications, which can be easily programmed on a computer. This is a powerful technique and is widely used in the design of optical element. In this chapter, some of the important concepts in resolution, depth of focus, and depth of field are also considered based on the ray approach.

  • Meso-Scale Transmission Electron Microscope Tomography Applied for Wax Distribution in Toner Particles

  • Mino Yang, Jun-Ho Lee, Hee-Goo Kim, Euna Kim, Young-Nam Kwon, Jin-Gyu Kim, Cheol-Woong Yang
  • Journal:
    Microscopy and Microanalysis / Volume 19 / Issue S5 / August 2013
    Published online by Cambridge University Press:
    06 August 2013, pp. 58-61
    Print publication:
    August 2013

  • Distribution of wax in laser printer toner was observed using an ultra-high-voltage (UHV) and a medium-voltage transmission electron microscope (TEM). As the radius of the wax spans a hundred to greater than a thousand nanometers, its three-dimensional recognition via TEM requires large depth of focus (DOF) for a volumetric specimen. A tomogram with a series of the captured images would allow the determination of their spatial distribution. In this study, bright-field (BF) images acquired with UHV-TEM at a high tilt angle prevented the construction of the tomogram. Conversely, the Z-contrast images acquired by the medium-voltage TEM produced a successful tomogram. The spatial resolution for both is discussed, illustrating that the image degradation was primarily caused by beam divergence of the Z-contrast image and the combination of DOF and chromatic aberration of the BF image from the UHV-TEM.