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1. 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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2. 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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3. 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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4. Finding Exponential Product Formulas of Higher Orders

   In the present article, we review the progress in the last two decades of the work on the Suzuki-Trotter decomposition, or the exponential product...

   Naomichi Hatano, Masuo Suzuki in Quantum Annealing and Other Optimization Methods

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5. Exploring Complex Landscapes with Classical Monte Carlo

   Nowadays, the annealing concept is useful in (at least) two different fields, namely Physics and Optimization. The annealing strategy was well known...

   Victor Martín-Mayor in Quantum Annealing and Other Optimization Methods

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6. Quantum Spin Glasses

   In this chapter of this monograph we want to provide an overview on the current status of our knowledge on the theory of quantum spin glasses. Spin...

   Heiko Rieger in Quantum Annealing and Other Optimization Methods

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7. Basic Theoretical Concepts

   Superconductivity is the phenomenon of dissipationless transport which occurs in many metals at su.ciently low temperatures. Metals in the...

   Gernot Goll in Unconventional Superconductors

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8. Aid of Scaling Laws in the Achievement of a Well-Controlled Film Deposition Process

   Scaling laws are profitably applied in all the scientific disciplines. Approximated solutions constitute a valuable aid for the analysis of complex...

   Giacomo Messina, Saveria Santangelo in Carbon

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9. Elastic and Structural Properties of Carbon Materials Investigated by Brillouin Light Scattering

   Brillouin light scattering (BS) is a nondestructive technique exploited to investigate collective excitations in solids: acoustic phonons, spin...

   Marco G. Beghi, Carlo S. Casari, ... Carlo E. Bottani in Carbon

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10. Formation, Atomic Structures and Properties of Carbon Nanocage Materials

    Various carbon nanocage fullerene materials (clusters, metallofullerenes, onions, nanotubes, nanohorns and nanocapsules) were synthesized by...

    Takeo Oku, Ichihito Narita, ... Shigeo Fujii in Carbon

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11. Pulsed Laser Deposition of Carbon Films: Tailoring Structure and Properties

    Pulsed laser deposition (PLD) is a versatile technique to synthesize films of a given material with strongly different properties. In this chapter we...

    Paolo M. Ossi, Antonio Miotello in Carbon

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12. Correlation Between Local Structure and Film Properties in Amorphous Carbon Materials

    A discussion of the various amorphous carbon and amorphous hydrogenated carbon films is presented. A link between sp 2, sp...

    Giovanni Fanchini, Alberto Tagliaferro in Carbon

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13. Spin-Based Quantum Dot Quantum Computing

    This chapter is an overview of the research on spin-based quantum dot quantum computation, which covers two most prominent architectures, one based...

    X. Hu in Quantum Coherence

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14. Optical Analysis of Monolayers at Surfaces and Interfaces

    Surface as well as interface properties are crucial for tailoring advanced materials, especially if the structure size in one or more dimensions...

    Veit Wagner in Advances in Solid State Physics

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15. Electron Spin Relaxation in Semiconductors

    We review recent progress in the understanding of electron spin relaxation mechanisms in zinc-blende semiconductors. Increased spin lifetimes are...

    Daniel Hägele, Stefanie Döhrmann, ... Michael Oestreich in Advances in Solid State Physics

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16. 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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17. Empirical Molecular Dynamics: Possibilities, Requirements, and Limitations

    Classical molecular dynamics enables atomistic structure simulations of nanoscopic systems to be made. The method is extremely powerful in solving...

    Kurt Scheerschmidt in Theory of Defects in Semiconductors

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18. Defect Theory: An Armchair History

    This introductory chapter begins with a summary of the developments of the theory of defects in semiconductors in the past 50 years. This is followed...

    David A. Drabold, Stefan K. Estreicher in Theory of Defects in Semiconductors

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19. Quasiparticle Calculations for Point Defects at Semiconductor Surfaces

    We present a quantitative parameter-free method for calculating defect states and charge-transition levels of point defects in semiconductors. It...

    Arno Schindlmayr, Matthias Scheffler in Theory of Defects in Semiconductors

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20. Light Induced Effects in Amorphous and Glassy Solids

    In this Chapter, we discuss how exposure to light can affect the properties of disordered materials and review our recent computational studies of...

    S. I. Simdyankin, S. R. Elliott in Theory of Defects in Semiconductors

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