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Molecular Dynamics
The aim in this Chapter is to show how molecular dynamics can be used to study conductive heat transfer in matter in terms of an atomic description... -
Dynamics
Dynamics refers to explanation (rather than mere description) of motion of particle in space. This chapter covers Newton’s laws of motion 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... -
Covariant Growth Dynamics
The spacetime discreteness of causal set theory has enabled the formulation of novel spacetime dynamics. In these so-called “growth” dynamics, a... -
Dynamics
The motion of material bodies is studied depending on the forces acting on them. Forces in the dynamics of the variables may depend on time, position... -
Vortex Dynamics
In this Chapter we will report on progress that has been made in recent years in the investigation of magnetization dynamics in confined magnetic... -
Rotational Dynamics
Rotational dynamics refers to explanation (rather than mere description) of rotational motion of particle in space. This chapter introduces concepts... -
Coherent Spin Dynamics
Well defined spin states of carriers or excitons can be readily prepared, manipulated and read-out in semiconductors. Their coherent dynamics is... -
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... -
Quantum Dynamics
The centerpiece of classical mechanics is to describe the motion of particles or systems, i.e., how their states vary with time. The time evolution... -
Spin Dynamics
This chapter is a general introduction to spin dynamics in beam lines and accelerators, and to resonant depolarization in cyclic accelerators. -
Political Dynamics
This chapter presents an operatorial model based on fermionic operators for the description of the dynamics of political parties affected by... -
Nonlinear Dynamics
We provide an introduction to some basic concepts of nonlinear dynamics, focusing on those required in understanding noise effects in nonlinear... -
Interpolation Between Instant Form Dynamics and Light-Front Dynamics
Among the three distinctly different forms of relativistic Hamiltonian dynamics proposed by Dirac in 1949, the instant form and the front form can be... -
Nonequilibrium Dynamics of Anisotropic Fluids
In Chap. 9 we summarized methods for analyzing the equilibrium statistics of physical system, using Monte Carlo methods. While at equilibrium complex... -
Exciton Interactions and Dynamics
Excitons are a stable species in many semiconductors with a sizeable excitonic binding energy at least at low temperatures. These excitons have... -
Classical Molecular Dynamics
Quantum theory is complex and, in many occasions, it is hard to use it to describe systems with many particles. Still, atoms behave in a simple way... -
Classical Dynamics
The two classical fields are the electromagnetic field and the gravitational field. In this chapter, we review the classical dynamics of these... -
Thermostat Algorithms for Molecular Dynamics Simulations
Molecular dynamics simulations rely on integrating the classical (Newtonian) equations of motion for a molecular system and thus, sample a... -
Dynamics of Spin Networks
This chapter covers the dynamics of quantum spacetime, utilising networks labelled with spin representations to describe kinematical states, and...