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Über eine neue Interferenzerscheinung an planparallelen Glasplatten und eine methode die Planparallelität solcher Gläser zu prüfen.Lummer, O. January 1900 (has links)
Inaug.--Diss.--Berlin. / Vita.
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Mathematical studies on the human eyeNam, Jayoung. January 2007 (has links)
Thesis (Ph.D.)--Indiana University, Dept. of Mathematics, 2007. / Source: Dissertation Abstracts International, Volume: 68-07, Section: B, page: 4528. Adviser: Jacob Rubinstein. Title from dissertation home page (viewed Apr. 22, 2008).
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On phase reconstructionLee, Chung-min. January 2007 (has links)
Thesis (Ph.D.)--Indiana University, Dept. of Mathematics, 2007. / Title from dissertation home page (viewed Sept. 30, 2008). Source: Dissertation Abstracts International, Volume: 69-02, Section: B, page: 1043. Adviser: Jacob Rubinstein.
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Quantum physics inspired optical effects in evanescently coupled waveguidesThompson, Clinton Edward January 2014 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / The tight-binding model that has been used for many years in condensed matter physics, due to its analytic and numerical tractability, has recently been used to describe light propagating through an array of evanescently coupled waveguides. This dissertation presents analytic and numerical simulation results of light propagating in a waveguide array. The first result presented is that photonic transport can be achieved in an array where the propagation constant is linearly increasing across the array. For an input at the center waveguide, the breathing modes of the system are observed, while for a phase displaced, asymmetric input, phase-controlled photonic transport is predicted. For an array with a waveguide-dependent, parity-symmetric coupling constant, the wave packet dynamics are predicted to be tunable. In addition to modifying the propagation constant, the coupling between waveguides can also be modified, and the quantum correlations are sensitive to the form of the tunneling function.
In addition to modifying the waveguide array parameters in a structured manner, they can be randomized as to mimic the insertion of impurities during the fabrication process. When the refractive indices are randomized and real, the amount of light that localizes to the initial waveguide is found to be dependent on the initial waveguide when the waveguide coupling is non-uniform. In addition, when the variance of the refractive indices is small, light localizes in the initial waveguide as well as the parity-symmetric waveguide. In addition to real valued disorder, complex valued disorder can be introduced into the array through the imaginary component of the refractive index. It is shown that the two-particle correlation function is qualitatively similar to the case when the waveguide coupling is real and random, as both cases preserve the symmetry of the eigenvalues. Lastly, different input fields have been used to investigate the quantum statistical aspects of Anderson localization. It is found that the fluctuations in the output intensity are enhanced and the entropy of the system is reduced when disorder is present in the waveguides.
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