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Three-dimensional coupled-wave theory for photonic-crystal surface-emitting lasers / フォトニック結晶面発光レーザの3次元結合波理論の構築Liang, Yong 24 March 2014 (has links)
京都大学 / 0048 / 新制・課程博士 / 博士(工学) / 甲第18283号 / 工博第3875号 / 新制||工||1594(附属図書館) / 31141 / 京都大学大学院工学研究科電子工学専攻 / (主査)教授 野田 進, 教授 川上 養一, 教授 藤田 静雄 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DFAM
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Resonances of scattering in non-uniform and anisotropic periodic gratings at extreme anglesGoodman, Steven John January 2006 (has links)
Bragg scattering of optical waves in thick gratings at extreme angles, where the scattered wave propagates parallel (extremely asymmetric scattering - EAS) or nearly parallel (grazing angle scattering - GAS) to the grating boundaries, is associated with many unique and practically important resonant phenomena. It has been demonstrated that one of the main physical mechanisms for these resonant phenomena is the diffractional divergence of the scattered wave inside and outside the grating region. This thesis fills the gaps in the theoretical and experimental understanding of Bragg scattering in gratings at extreme angles by investigating EAS and GAS in structures where diffractional divergence of waves is significantly affected by anisotropy and/or non-uniformities of the dielectric permittivity.
Unusually high sensitivity of wave scattering in thick periodic gratings to small step-like variations of mean structural parameters at the grating boundaries is predicted and described for the case when the scattered wave (the +1 diffracted order) propagates almost parallel to the front grating boundary (the geometry of GAS). A unusual pattern of strong multiple resonances for bulk electromagnetic waves is predicted and analysed numerically in thick periodic holographic gratings in a guiding slab with mean permittivity that is greater than that of the surrounding media. It is demonstrated that these resonances are related to resonant generation of a new type of eigenmodes in a thick slab with a periodic grating. These eigenmodes are generically related to the grating -- they do exist not if the grating amplitude is zero.
A new type of resonant coupling of bulk radiation into the conventional guided modes of a slab with a thick holographic grating is predicted and explained theoretically. It occurs in the presence of strong frequency detunings of the Bragg condition by means of interaction of the strongly non-eigen +1 diffracted order with the slab-grating boundaries. Therefore, it is only in the presence of step-like variations of the mean permittivity at the grating boundaries that this type of resonant coupling can occur.
A new method for the analysis of EAS and GAS in anisotropic gratings is developed. This method is based on the consideration of the diffractional divergence of the scattered wave and the two-wave approximation in anisotropic gratings. Special efforts are focused on the analysis of EAS and GAS of extraordinary waves in uniaxial gratings. In particular, it is demonstrated that increasing curvature of the normal surface in the direction of propagation of the scattered wave results in increase of its diffraction divergence and the resonant amplitude.
A theoretical model is developed for comparison of the theoretical predictions with data obtained from experimental observations of EAS in a holographic grating written in a photorefractive medium. The developed model is applied for the interpretation of experimental observations of EAS in BaTiO3 photorefractive crystals. Good agreement with the theoretical predictions is demonstrated.
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Models in nonlinear condensed-matter optics: From theory to experimentVoit, Kay-Michael 12 April 2013 (has links)
Cumulative Dissertation on models in nonlinear condensed-matter
optics. In chapter 2, the coupled-wave theory first introduced by Kogelnik is reviewed
and extended with emphasis on out-of-phase mixed holographic gratings. This class of
gratings becomes increasingly important due to novel methods of hologram recording
and new classes of materials and metamaterials like holographic polymer dispersed
liquid crystals. Additionally, advances in laser technology suggest a stronger spectro-
scopic view on holography. The model presented in this thesis accounts for both of
these demands and provides a closed analytical solution.
Chapter 3 contributes to the field of space-charge waves (SCW), which provides
powerful tools for material analysis, especially in semiconductor technology. Although
the underlying theory is generally understood, recent improvements of the ex-
perimental techniques required extensions of the model and the interpretation of new
effects. In this thesis, the existing formalism is adapted to a new method of excitation,
which not only simplifies the experimental setup, allowing for easier adoption into
industrial environments, but also provides insight into the direction of carrier motion.
Furthermore, the model is extended to describe the influence of an external magnetic
field, adding the possibility to examine the Hall mobility of carriers.
Eventually, chapter 4 studies the dynamics of light induced absorption in pho-
tochromic [Ru(bpy)2 (OSO)]+ . Compared to other photofunctional compounds, this
molecule is nontoxic and exhibits exceptional photochromic reactions. These properties
make it a promising candidate for important industrial and technological applications,
ranging from data storage to non-electronic computation. For a profound analysis,
the models used for the description of photofunctional molecules have been
completely revised to account for the pronounced absortion changes in the material.
Furthermore, a setup with orthogonal pump and probe beams is modeled and exper-
imentally tested. This novel geometry is introduced to resemble common industrial
setups.
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