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1. Electrical Characterization of Rare Earth Oxides Grown by Atomic Layer Deposition

   In this contribution, we investigate the electrical properties of thin (3–30 nm) Lu2O3 and Yb2O3 oxides grown on silicon by atomic layer depostion....

   Sabina Spiga, Claudia Wiemer, ... Marco Fanciulli in Rare Earth Oxide Thin Films

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2. Rare Earth Oxides Grown by Molecular Beam Epitaxy for Ultimate Scaling

   Combination of lanthanum and other rare earth oxides with HfO2 yields stable compounds which withstand transistor processing and have low gate...

   Athanasios Dimoulas in Rare Earth Oxide Thin Films

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3. Atomic Layer Deposition of Rare Earth Oxides

   The principles of Atomic Layer Deposition (ALD) for thin film growth are briefly introduced, emphasizing the aspects of a self-limiting mechanism....

   Jani Päiväsaari, Jaakko Niinistö, ... Lauri Niinistö in Rare Earth Oxide Thin Films

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4. Sesquioxides as Host Materialsfor Rare-Earth-Doped Bulk Lasersand Active Waveguides

   This Chapter focuses on the optical applications of rare-earth oxides. Due to their thermo-mechanical properties, the sesquioxides of yttrium,...

   Sebastian Bär, Hanno Scheife, ... Günter Huber in Rare Earth Oxide Thin Films

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5. 3.4.2 Adsorption of C, N, and O on metal surfaces

   This document is part of Part 4 'Adsorbate Species on Surfaces and Adsorbate-Induced Surface Core Level Shifts' of Subvolume A 'Adsorbate Layers on...

   H. Over in Adsorbed Layers on Surfaces

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6. 3.7.1 CO and N2 adsorption on metal surfaces - CO adsorption

   This document is part of Part 4 'Adsorbate Species on Surfaces and Adsorbate-Induced Surface Core Level Shifts' of Subvolume A 'Adsorbate Layers on...

   A. Föhlisch, H. P. Bonzel in Adsorbed Layers on Surfaces

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7. 3.7.1 CO and N2 adsorption on metal surfaces - Tables

   This document is part of Part 4 'Adsorbate Species on Surfaces and Adsorbate-Induced Surface Core Level Shifts' of Subvolume A 'Adsorbate Layers on...

   A. Föhlisch, H. P. Bonzel in Adsorbed Layers on Surfaces

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8. Local Structure, Composition and Electronic Properties of Rare Earth Oxide Thin Films Studied Using Advanced Transmission Electron Microscopy Techniques (TEM-EELS)

   This contribution aims to demonstrate the ability of transmission electron microscopy (TEM) and its associated techniques, high-resolution...

   Sylvie Schamm, Giovanna Scarel, Marco Fanciulli in Rare Earth Oxide Thin Films

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9. Electronic Structure of Rare Earth Oxides

   The electronic structures of dioxides, REO2, and sesquioxides, RE2O3, of the rare earths, RE=Ce, Pr, Nd, Pm, Sm, Eu, Gd, Tb, Dy and Ho, are...

   Leon Petit, Axel Svane, ... Walter M. Temmerman in Rare Earth Oxide Thin Films

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10. Requirements of Precursors for MOCVDand ALD of Rare Earth Oxides

    This Chapter gives an account of the coordination chemistry of precursors for MOCVD and ALD of rare earth oxides. It opens with a brief introduction...

    Helen C. Aspinall in Rare Earth Oxide Thin Films

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11. Fabrication and Characterization of Rare Earth Scandate Thin Films Prepared by Pulsed Laser Deposition

    The continuous structure size reduction in semiconductor technology is leading to a considerable attention for advanced high-κ dielectrics. The rare...

    Jürgen Schubert, Tassilo Heeg, Martin Wagner in Rare Earth Oxide Thin Films

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12. Survey of Current Theoretical Schemes

    With a view to the growing interest in heavy-ion stop**, theoretical schemes have been developed over the past few years aiming at calculating...

    Peter Sigmund in Stop** of Heavy Ions

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13. Statistics of Particle Penetration

    The importance of statistical considerations in the physics of particle penetration has been emphasized in particular by Bohr (1948). An extensive...

    Peter Sigmund in Stop** of Heavy Ions

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14. 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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15. 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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16. 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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17. 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

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18. 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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19. 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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20. 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

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