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1. Spinodal Crystallization of Polymers: Crystallization from the Unstable Melt

   This paper reviews the authors' investigation into polymer crystallization, especially involving a spinodal decomposition (SD) type phase...

   Keisuke Kaji, Koji Nishida, ... Masayuki Imai in Interphases and Mesophases in Polymer Crystallization III

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2. Molecular Dynamics Modeling of the Crystal-Melt Interfaces and the Growth of Chain Folded Lamellae

   The molecular mechanism of polymer crystallization is one of the most difficult problems and has defied innumerable efforts to understand the...

   Takashi Yamamoto in Interphases and Mesophases in Polymer Crystallization III

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3. Topological Mechanism of Polymer Nucleation and Growth – The Role of Chain Sliding Diffusion and Entanglement

   Direct evidence of nucleation during the induction period of nucleation from the melt is obtained for the first time by means of small angle X-ray...

   Masamichi Hikosaka, Kaori Watanabe, ... Shinichi Yamazaki in Interphases and Mesophases in Polymer Crystallization III

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4. Modeling Polymer Crystallization

   We summarize the salient conclusions derived from Langevin dynamics simulations of many flexible polymer molecules undergoing crystallization from...

   M. Muthukumar in Interphases and Mesophases in Polymer Crystallization III

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5. 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

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6. Cu-Mg-Si (Copper - Magnesium - Silicon)

   This document is part of Subvolume A4 'Light Metal Systems. Part 4: Selected Systems from Al-Si-Ti to Ni-Si-Ti' of Volume 11 'Ternary Alloy Systems -...

   in Light Metal Systems. Part 4

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7. 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

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8. 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

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9. 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

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10. H0.5(Ta0.5W0.5)O3

    This document is part of Subvolume A1 'Structure Types. Part1: Space Groups (230) Ia-3d – (219) F43-c' of Volume 43 'Crystal Structures of Inorganic...

    P. Villars, K. Cenzual, ... L. Sysa in Structure Types. Part 1: Space Groups (230) Ia-3d -(219)-F43-c

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11. Chemical Solution Depositionof Layer-Structured Ferroelectric Thin Films

    Ferroelectric rare-earth-doped Bi4Ti3O12 thin films have been successfully prepared on Si-based substrates by using metallo-organic precursor...

    Shin-ichi Hirano, Takashi Hayashi, ... Toshinobu Yogo in Ferroelectric Thin Films

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12. Relaxor Superlattices: Artificial Control of the Ordered–Disordered State of B-Site Ions in Perovskites

    We have developed a new superlattice technique to artificially control the B-site ordering state. The technique has been applied to Ba(Zr0.2Ti0.8)O3,...

    Hitoshi Tabata in Ferroelectric Thin Films

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13. Pb-Based Ferroelectric Thin Films Prepared by MOCVD

    This Chapter focuses on the preparation and ferroelectric properties of Pb-based thin films and nanostructures. First, the growth behavior of...

    Masaru Shimizu, Hironori Fujisawa, Hirohiko Niu in Ferroelectric Thin Films

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14. Critical Phenomena in a Small World

    We consider the behavior of various systems on a small-world network near a critical point. Our starting point is a different, nonrandom system with...

    Matthew B. Hastings, Balázs Kozma in Complex Networks

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15. The 3DXRD Microscope

    The 3DXRD microscope at ESRF is installed in a separate laboratory, the second experimental hutch at beamline ID11 [1,2]. The beamline is an...

    Henning F. Poulsen in Three-Dimensional X-Ray Diffraction Microscopy

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16. Who Is the Best Connected Scientist?A Study of Scientific Coauthorship Networks

    Using data from computer databases of scientific papers in physics, biomedical research, and computer science, we have constructed networks of...

    Mark E.J. Newman in Complex Networks

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17. Scholarly Information Network

    I review the background and some recent trends of a particular scholarly information network, ar**v.org, and discuss some of its implications for new...

    Paul Ginsparg in Complex Networks

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18. Multigrain Crystallography

    Traditionally, x-ray crystallography is based on either powder diffraction data or single-crystal studies. Both methods have their distinct...

    Henning F. Poulsen in Three-Dimensional X-Ray Diffraction Microscopy

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19. Information Theory of Complex Networks: On Evolution and Architectural Constraints

    Complex networks are characterized by highly heterogeneous distributions of links, often pervading the presence of key properties such as robustness...

    Ricard V. Solé, Sergi Valverde in Complex Networks

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20. The Small World Phenomenonin Hybrid Power Law Graphs

    The small world phenomenon, that consistently occurs in numerous existing networks, refers to two similar but different properties — small average...

    Fan Chung, Linyuan Lu in Complex Networks

    Chapter