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1. Dynamical Theory of Parametric X-ray Radiation

   Previous chapters demonstrate a close analogue between the theory of parametric X-ray radiation (PXR) in thin crystals and the kinematic theory of...

   Vladimir G. Baryshevsky, Ilya D. Feranchuk, Alexander P. Ulyanenkov in Parametric X-Ray Radiation in Crystals

   Chapter
   

2. Radiation from a Charged Particle in Periodic Media: Classical Theory

   The method of pseudophotons, considered in the previous chapter, is convenient for qualitative analysis of parametric X-ray radiation (PXR). PXR in...

   Vladimir G. Baryshevsky, Ilya D. Feranchuk, Alexander P. Ulyanenkov in Parametric X-Ray Radiation in Crystals

   Chapter
   

3. Prospective Applications of PXR

   The previous chapters concern the fundamental properties of PXR, which have been experimentally observed and theoretically explained. The most recent...

   Vladimir G. Baryshevsky, Ilya D. Feranchuk, Alexander P. Ulyanenkov in Parametric X-Ray Radiation in Crystals

   Chapter
   

4. Electromagnetic Radiation from a Charged Particle in Crystals: Qualitative Consideration

   Electromagnetic radiation caused by motion of a charged particle has been studied for more than 100 years. It was firmly believed for an appreciable...

   Vladimir G. Baryshevsky, Ilya D. Feranchuk, Alexander P. Ulyanenkov in Parametric X-Ray Radiation in Crystals

   Chapter
   

5. Momentum and Energy Relations

   The equations of motion (5.12) for the charged insulating sphere of radius a moving with arbitrary center velocity u(t) can be rewritten in...

   Arthur D. Yaghjian in Relativistic Dynamics of a Charged Sphere

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6. Derivation of Force and Power Equations

   The inconsistency between the power and force equations of motion, (2.4) and (2.1) or (2.5), is so surprising that one is tempted to question the...

   Arthur D. Yaghjian in Relativistic Dynamics of a Charged Sphere

   Chapter
   

7. Internal Binding Forces

   In Appendix B, we have critically confirmed the evaluation of the self electromagnetic force and power, (3.1) and (3.2), leading to the force and...

   Arthur D. Yaghjian in Relativistic Dynamics of a Charged Sphere

   Chapter
   

8. Phase behavior of phytanyl-chained akylglycoside/water systems

   The aqueous phase behavior of novel alkylglycosides, AGs, that have a 3,7,11,15-tetramethylhexadecyl (phytanyl) group as their hydrophobic part was...

   Masakatsu Hato, Hiroyuki Minamikawa, ... Sanae Matsutani in Trends in Colloid and Interface Science XVI

   Conference paper
   

9. About energy and electron transfer processes in C60 /phthalocyanine films

   In the present work absorption, photoluminescence excitation and emission spectra of fullerene C60, and a zinc derivative of phthalocyanine (ZnPc) in...

   H. D. Burrows, A. A. Kharlamov in Trends in Colloid and Interface Science XVI

   Conference paper
   

10. Determining antioxidant distributions in model food emulsions: development of a new kinetic method based on the pseudophase model in micelles and opaque emulsions

    The mechanisms of lipid peroxidation and the distributions of antioxidants in emulsions are not fully understood, in a large part because...

    L. S. Romsted, J. Zhang in Trends in Colloid and Interface Science XVI

    Conference paper
    

11. 4 Abelian Gauge Fixing

    The formation of monopoles and their condensation in the QCD ground state is a feature which is related to abelian gauge fixing, discussed in this...

    Georges Ripka in Dual Superconductor Models of Color Confinement

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12. Appendix D. Color Charges of Quarks and Gluons

    In $SU\left( 2\right) $ , the charge operator is:...

    Georges Ripka in Dual Superconductor Models of Color Confinement

    Chapter
    

13. Methods and Instrumentation

    On the basis of the given brilliances of present-day synchrotron radiation sources one easily estimates that they should be ideally suited for...

    Ralf Röhlsberger in Nuclear Condensed Matter Physics with Synchrotron Radiation

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14. Infrared Model Dielectric Functions

    This chapter reviews a selection of dielectric function models progressed for lineshape analysis of (far) infrared ellipsometry data. Contributions...

    Mathias Schubert in Infrared Ellipsometry on Semiconductor Layer Structures

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15. 4 × 4 Transfer Matrix T p for Dielectric Helical Films

    Dielectric helical thin films (DHTF’s) are described by a homogeneous rotation of an arbitrarily oriented symmetric dielectric function tensor ɛ...

    Mathias Schubert in Infrared Ellipsometry on Semiconductor Layer Structures

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16. Polaritons in Semiconductor Layer Structures

    The infrared optical response of layered structures composed of polar semiconductor materials is strongly influenced by resonant excitation of...

    Mathias Schubert in Infrared Ellipsometry on Semiconductor Layer Structures

    Chapter
    

17. Coherent Elastic Nuclear Resonant Scattering

    In the field of x-ray diffraction, the intensity and the direction of scattered waves are determined by the properties of the individual scatterers...

    Ralf Röhlsberger in Nuclear Condensed Matter Physics with Synchrotron Radiation

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18. Zincblende-Structure Materials (III–V)

    The following chapters will provide different examples including various semiconductor materials of contemporary interest and with diverse...

    Mathias Schubert in Infrared Ellipsometry on Semiconductor Layer Structures

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19. 5. Simulation of Active and Nonlinear Photonic Nano-Materials in the Finite-Difference Time-Domain (FDTD) Framework

    A numerical method is presented that unites three-dimensional finite-differnce time-domain (FDTD) computer simulations of active, nonlinear photonic...

    A. Klaedtke, J. Hamm, O. Hess in Computational Materials Science

    Chapter
    

20. 13. Parallel Implementation Strategiesfor Algorithms from Scientific Computing

    Many applications from scientific computing are computationally intensive and can therefore benefit from a realization on a parallel or a distributed...

    T. Rauber, G. Rünger in Computational Materials Science

    Chapter