Academic journal

A new approach for imaging microstructures

  • Gallagher, D. Photonic CAD comes of age. IEEE Photonics Soc. 22(1), 8-14 (2008).

    Google Scholar

  • Taflove, A., Hagness, SC & Piket-May, M. Computational Electromagnetics: The Time Domain Finite Difference Method. Electr. Eng. Handb. 3629–670 (2004).

    Google Scholar

  • Kiarash, A. & Anwar, M. Advanced terahertz techniques for quality control and counterfeit detection. In Proceedings Volume 9856, Terahertz Physics, X Devices and Systems: Advanced Applications in Industry and DefenseSPIE (2016).

  • Greengard, L., Hagstrom, T. & Jiang, S. Extension of the Lorenz–Mie–Debye method for time-domain electromagnetic scattering. J. Compute. Phys. 29998-105 (2015).

    ADS MathSciNet MATH Google Scholar Article

  • Gosse, L. & James, F. Convergence results for an inhomogeneous system resulting from various high-frequency approximations. Number. Math. 90721–753 (2002).

    MathSciNet MATH Google Scholar Article

  • Balanis, California Advanced Electromagnetism Engineering, Book 2nd ed. (Wiley, New York, 2011).

    Google Scholar

  • Durnin, J. Exact solutions for non-diffracting beams: I—The scalar theory. J. Opt. Soc. A m. A 4(4), 651–654 (1987).

    Google Scholar Article Announcements

  • Sommerfeld, A. Optical, dry. 38 (German edition 1950, English translation, Academic Press, 1964).

  • Plancoulaine, B., Rasmusson, A., Labbé, C., Levenson, R., & Laurinavicius, A. Three equations of optics. Supplementary Note 1 (2022).

  • Plancoulaine, B., Rasmusson, A., Labbé, C., Levenson, R., & Laurinavicius, A. Laws of geometrical optics. Supplementary Note 2 (2022).

  • Ohno, H. Symplectic ray tracing based on Hamiltonian optics in gradient-index media. J. Opt. Soc. A m. A 37(3), 411–416 (2020).

    Google Scholar Article Announcements

  • Ihrke, I. et al. Eikonal rendering: Efficient transport of light in refractive objects. ACM Trans. Gr. 26(3), 59 (2007).

    Google Scholar article

  • Stone, BD & Forbes, GW Optimal interpolants for Runge–Kutta ray tracing in inhomogeneous media. J. Opt. Soc. A m. A seven(2), 248–254 (1990).

    Google Scholar Article Announcements

  • Plancoulaine, B., Rasmusson, A., Labbé, C., Levenson, R., & Laurinavicius, A. Transport propagation equations. Supplementary Note 3 (2022).

  • Zuo, C. et al. Transport of the intensity equation: a tutorial. Opt. Laser Engineering. 135106187 (2020).

    Google Scholar article

  • Siegman, AE LaserAcademic Science Books (1986).

  • Simon, B. et al. Diffractive tomographic microscopy with isotropic resolution. Optical 4(4), 460–463 (2017).

    Google Scholar Article Announcements

  • Harvey, JE, Irvin, RG & Pfisterer, RN Modeling of physical optical phenomena by tracing complex rays. Opt. Eng. 54(3), 035105 (2015).

    Google Scholar Article Announcements

  • Plancoulaine, B., Rasmusson, A., Labbé, C., Levenson, R., & Laurinavicius, A. Diffraction by a perfectly conducting half-plane. Supplementary Note 4 (2022).

  • Plancoulaine, B., Rasmusson, A., Labbé, C., Levenson, R., & Laurinavicius, A. Real irradiance calculated using the phase. Supplementary Note 4 (2022).

  • McCoy, DE, Shneidman, AV, Davis, AL & Aizenberg, J. Finite-difference time-domain (FDTD) optical simulations: An introduction to life sciences and bio-inspired engineering. Micron 151103160 (2021).

    PubMed Google Scholar article

  • Eaton, JW, Bateman, D., Hauberg, S., & Wehbring, R. GNU Octave Manual Version 4.4.1: A High-Level Interactive Language for Numerical Computations (2018).

  • Povray Software, Persistence of Vision (TM) Raytracer, Ltd., Williamstown, Victoria, Australia (2004).

  • Rasband, WS ImageJ, US National Institutes of Health, Bethesda, Maryland, USA (1997-2018).

  • Schmid, B., Schindelin, J., Cardona, A., Longair, M. & Heisenberg, M. A high-level 3D visualization API for Java and ImageJ. BMC Bioinform. 11(1), 1–7 (2010).

    Google Scholar article

  • Gurcan, MN et al. Histopathological image analysis: a review. IEEE Rev. Biomed. Eng. 2147-171 (2009).

    PubMed Article PubMed Central Google Scholar

  • Ganoza-Quintana, JL, Fanjul-Vélez, F. & Arce-Diego, JL Digital histology by phase imaging specific biomarkers for the discrimination of human tumor tissues. Appl. Science. 116142 (2021).

    CAS Google Scholar Article

  • Rivenson, Y., Zhang, Y., Günaydın, H., Da Teng, D. & Ozcan, A. Phase recovery and holographic image reconstruction. Light Sci. Appl. seven17141 (2018).

    CAS PubMed Article PubMed Central Google Scholar

  • Deschamps, GA Ray in electromagnetism. proc. IEEE 60(9), 1022-1035 (1972).

    Google Scholar article

  • Nolté, DD Optical Interferometry for Biology and Medicine Part of the Bioanalysis book series (Springer, 2012).

    Book Google Scholar

  • Fereidouni, F. et al. Ultraviolet surface excitation microscopy for rapid slideless histology. Nat. Biomedical. Eng. 1957–966 (2017).

    CAS PubMed Article PubMed Central Google Scholar

  • Al-Ameri, MD and El-Gomati, MM Optics in our time, open book (Springer, 2016).

    Book Google Scholar

  • Glassner, AS An introduction to ray tracing, book, version 1.3 (Academic Press Inc., 2019).

    Google Scholar

  • The Scott Partnership. Optical simulation software. Nat. Photonics (Focus Prod.) 4256–257 (2010).