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1. Monolithic Silicon Light Sources

   Monolithic silicon light sources (LEDs and lasers) could have a significant impact when integrated on silicon chips. After a general introduction to...

   Philippe M. Fauchet in Silicon Photonics

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2. 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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3. Results for Sr2RuO4

   In this chapter, we focus on our results for the elementary excitations and Cooper pairing in strontium ruthenate (...

   Dirk Manske in Theory of Unconventional Superconductors

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4. Silicon Fundamentals for Photonics Applications

   The many and diverse approaches to materials science problems have greatly enhanced our ability to engineer the physical properties of...

   David J. Lockwood and Lorenzo Pavesi in Silicon Photonics

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5. Monolithic Silicon Microphotonics

   The technology evolution of optical interconnection is driven by the distance × product required for a given link. As such optical fiber deployment...

   L. C. Kimerling, L. Dal Negro, ... M. R. Watts in Silicon Photonics

   Chapter
   

6. 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

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7. Theory of Cooper Pairing Due to Exchange of Spin Fluctuations

   It is of general interest whether singlet high- \(T_{\rm c}\)...

   Dirk Manske in Theory of Unconventional Superconductors

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8. Concluding Remarks

   So far, the 3DXRD microscope has mainly been applied to fundamental studies in metallurgy. As demonstrated in Chap. 9, the method is sufficiently...

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

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9. 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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10. Applications

    An understanding of polycrystalline deformation is essential for science and industry, in order to predict the development of texture and flow stress...

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

    Chapter
    

11. General Aspects of Nuclear Resonant Scattering

    Nuclear resonant scattering (NRS) unites a number of different scattering processes that can be used to investigate properties of condensed matter....

    Ralf Röhlsberger in Nuclear Condensed Matter Physics with Synchrotron Radiation

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12. 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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13. Combining 3DXRD and Absorption Contrast Tomography

    The 3DXRD setup sketched in Fig. 3.1 is very similar to the setup typically used for absorption contrast x-ray tomography at synchrotrons....

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

    Chapter
    

14. 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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15. Introduction

    The scattering of x-rays is a very powerful tool to investigate the structure and dynamics of condensed matter. The research in this field can be...

    Ralf Röhlsberger in Nuclear Condensed Matter Physics with Synchrotron Radiation

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16. Outlook and Perspectives

    Nuclear resonant scattering has significantly benefitted from the development of third-generation synchrotron radiation sources. This trend will...

    Ralf Röhlsberger in Nuclear Condensed Matter Physics with Synchrotron Radiation

    Chapter
    

17. 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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18. Course 14: Hiking through Glassy Phases: Physics beyond Aging

    Experiments performed on a wide range of glassy materials display many interesting phenomena, such as aging behavior. In recent years, a large body...

    L. Berthier, V. Viasnoff, ... F. Krzakala in Slow Relaxations and nonequilibrium dynamics in condensed matter

    Conference paper
    

19. Course 6: Glasses, Replicas and All That

    In these lectures I will review the approach to glasses based on the replica formalism. Many of the physical ideas are very similar to those of older...

    G. Parisi in Slow Relaxations and nonequilibrium dynamics in condensed matter

    Conference paper
    

20. Course 1: Nonequilibrium Phase Transitions

    Nonequilibrium phase transitions are discussed with emphasis on general features such as the role of detailed balance violation in generating...

    Z. Rácz in Slow Relaxations and nonequilibrium dynamics in condensed matter

    Conference paper