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1. Quantum Coherence in Electron–Phonon Coupled States in a Semiconductor Crystal

   This chapter describes the quantum coherence (electronic and phononic coherences) in a bulk solid investigated via ultrafast quantum-path...

   Kazutaka G. Nakamura, Itsuki Takagi in Progress in Ultrafast Intense Laser Science XVII

   Chapter 2024
   

2. The Born Versus Heisenberg Quantum-Vacuum Controversy and Beyond

   Photon-photon collisionsPhoton-photon collisions, as one of the fundamental processes in quantum physics, have attracted a lot of attention. However,...

   Luis Roso, Roberto Lera, ... Wendell T. Hill in Progress in Ultrafast Intense Laser Science XVII

   Chapter 2024
   

3. Variations on the Penning Trap Concept

   In this chapter, we briefly have a look at a number of variations on the idea of a Penning trap, i.e. at specific deviations from the combination of...

   Manuel Vogel in Particle Confinement in Penning Traps

   Chapter 2024
   

4. Penning Trap Implementation

   In this chapter, we have a look at the way in which the concept can be implemented. It shows the capabilities of the most common Penning trap...

   Manuel Vogel in Particle Confinement in Penning Traps

   Chapter 2024
   

5. Excitation of Particle Motions

   Confined particles can be excited non-resonantly, or resonantly by suited electromagnetic radiation at the frequency of the respective motion. This...

   Manuel Vogel in Particle Confinement in Penning Traps

   Chapter 2024
   

6. Correction to: Report on a Self-made High-Performance Binocular

   Gerhard Eller in The Binocular Handbook

   Chapter 2024
   

7. Introduction

   The immaculate control of atoms and molecules with light is the defining trait of modern experiments in ultracold physics. The rich internal degrees...

   Kon H. Leung in The Strontium Molecular Lattice Clock

   Chapter 2024
   

8. Propagation of Acoustic Waves in Air

   This chapter specifically discusses the propagation of acoustic waves in air. By considering the source of elasticity of air, we derive the equation...

   Sanichiro Yoshida in Fundamentals of Acoustic Waves and Applications

   Chapter 2024
   

9. Electrical-Mechanical Transduction

   This chapter discusses acoustic transduction. We focus on the operation principle of typical acoustic transducers to understand how the devices work....

   Sanichiro Yoshida in Fundamentals of Acoustic Waves and Applications

   Chapter 2024
   

10. Propagation of Acoustic Waves in Solids

    In this chapter, we aim to discuss the propagation of sound waves in solids, clarifying the dynamical difference in elastic behaviors between air and...

    Sanichiro Yoshida in Fundamentals of Acoustic Waves and Applications

    Chapter 2024
    

11. Wave Dynamics

    In this chapter, we focus on the physics behind wave dynamics. After reviewing the harmonic oscillation of point mass-spring systems, we discuss how...

    Sanichiro Yoshida in Fundamentals of Acoustic Waves and Applications

    Chapter 2024
    

12. SSMB Longitudinal Dynamics

    In this chapter, we study the single-particle longitudinal dynamics of SSMB. The motivation is to answer the question: how to realize the short bunch...

    **ujie Deng in Theoretical and Experimental Studies on Steady-State Microbunching

    Chapter Open access 2024
    

13. Optical Quantum Computing

    Since the shift from the passive observation to the active manipulation of quanta (photons, electrons, atoms, molecules, etc.) in the 1980s and...

    Zeng-Bing Chen in Special Topics in Quantum Optics

    Chapter 2024
    

14. Hyper and Stimulated Raman Spectroscopy

    Stimulated Raman Spectroscopy (SRS) is a powerful spectroscopic technique to probe the vibrational structure of chemical and biological system of...

    Nilesh Kumar Rai in Raman Spectroscopy

    Chapter 2024
    

15. Coherent Anti-Stokes Raman Spectroscopy (CARS)

    Coherent anti-Stokes Raman scattering (CARS) spectroscopy has been used to provide gas-phase quantitative scalar information (e.g. temperature,...

    Francesco Mazza, Leonardo Castellanos, ... Alexis Bohlin in Raman Spectroscopy

    Chapter 2024
    

16. Optical Tweezers in Raman Spectroscopy

    Optical tweezers and Raman spectroscopy (OTRS) are two powerful techniques widely used in the field of biophysics for studying the structural and...

    Bhumika Ray, Saurabh Raj in Raman Spectroscopy

    Chapter 2024
    

17. Magnetic Field and Pressure-Dependent Raman Spectroscopy

    Quantum materials having interactions among various degrees of freedom (lattice, charge, spin, and orbital) exhibit properties that are fundamentally...

    Akriti Singh, Aprajita Joshi, Surajit Saha in Raman Spectroscopy

    Chapter 2024
    

18. Summary and Concluding Remarks

    We have considered the formation of the positive ion of antihydrogen via radiative and nonradiative attachment of an incident positron to an...

    Andreas Jacob in Relativistic Effects in Interatomic Ionization Processes and Formation of Antimatter Ions in Interatomic Attachment Reactions

    Chapter 2024
    

19. Radiation- Field-Driven Ionization in Laser-Assisted Slow Atomic Collisions

    This chapter provides a detailed insight into the theoretical treatment of the single electron emission in slow atomic collisions in the presence of...

    Andreas Jacob in Relativistic Effects in Interatomic Ionization Processes and Formation of Antimatter Ions in Interatomic Attachment Reactions

    Chapter 2024
    

20. Theory of Nonradiative Attachment

    This chapter provides a detailed insight into the theoretical treatments of the nonradiative three-body reactions, which are electron-assisted...

    Andreas Jacob in Relativistic Effects in Interatomic Ionization Processes and Formation of Antimatter Ions in Interatomic Attachment Reactions

    Chapter 2024