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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... -
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,... -
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... -
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... -
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... -
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Introduction
The immaculate control of atoms and molecules with light is the defining trait of modern experiments in ultracold physics. The rich internal degrees... -
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... -
Electrical-Mechanical Transduction
This chapter discusses acoustic transduction. We focus on the operation principle of typical acoustic transducers to understand how the devices work.... -
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... -
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... -
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... -
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... -
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... -
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,... -
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... -
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... -
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... -
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... -
Theory of Nonradiative Attachment
This chapter provides a detailed insight into the theoretical treatments of the nonradiative three-body reactions, which are electron-assisted...