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1. 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...

   Patrice Chantrenne in Microscale and Nanoscale Heat Transfer

   Chapter
   

2. Dynamics

   Dynamics refers to explanation (rather than mere description) of motion of particle in space. This chapter covers Newton’s laws of motion and...

   Sujaul Chowdhury in Newtonian Mechanics

   Chapter 2024
   

3. 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
   

4. 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...

   Stav Zalel in Handbook of Quantum Gravity

   Living reference work entry 2024
   

5. 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...

   Valentin Molotnikov, Antonina Molotnikova in Theoretical and Applied Mechanics

   Chapter 2023
   

6. 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...

   Christian H. Back, Danilo Pescia, Matthias Buess in Spin Dynamics in Confined Magnetic Structures III

   Chapter
   

7. Rotational Dynamics

   Rotational dynamics refers to explanation (rather than mere description) of rotational motion of particle in space. This chapter introduces concepts...

   Sujaul Chowdhury in Newtonian Mechanics

   Chapter 2024
   

8. 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...

   Heinz Kalt, Claus F. Klingshirn in Semiconductor Optics 2

   Chapter 2024
   

9. 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
   

10. 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...

    Biao Wu in Quantum Mechanics

    Chapter 2023
    

11. Spin Dynamics

    This chapter is a general introduction to spin dynamics in beam lines and accelerators, and to resonant depolarization in cyclic accelerators.

    François Méot in Polarized Beam Dynamics and Instrumentation in Particle Accelerators

    Chapter Open access 2023
    

12. Political Dynamics

    This chapter presents an operatorial model based on fermionic operators for the description of the dynamics of political parties affected by...

    Fabio Bagarello, Francesco Gargano, Francesco Oliveri in Quantum Tools for Macroscopic Systems

    Chapter 2023
    

13. Nonlinear Dynamics

    We provide an introduction to some basic concepts of nonlinear dynamics, focusing on those required in understanding noise effects in nonlinear...

    Debraj Das, Shamik Gupta in Facets of Noise

    Chapter 2023
    

14. 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...

    Chueng-Ryong Ji in Relativistic Quantum Invariance

    Chapter 2023
    

15. 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...

    Martin Kröger in Models for Polymeric andAnisotropic Liquids

    Chapter
    

16. 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...

    Heinz Kalt, Claus F. Klingshirn in Semiconductor Optics 2

    Chapter 2024
    

17. 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...

    Ruben Santamaria in Molecular Dynamics

    Chapter 2023
    

18. Classical Dynamics

    The two classical fields are the electromagnetic field and the gravitational field. In this chapter, we review the classical dynamics of these...

    Yaakov Friedman, Tzvi Scarr in A Novel Approach to Relativistic Dynamics

    Chapter 2023
    

19. 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...

    Philippe H. Hünenberger in Advanced Computer Simulation

    Chapter
    

20. Dynamics of Spin Networks

    This chapter covers the dynamics of quantum spacetime, utilising networks labelled with spin representations to describe kinematical states, and...

    Sundance Bilson-Thompson in Loop Quantum Gravity for the Bewildered

    Chapter 2024