Quantum Wavepacket Dynamics in Molecular and Trapped Ion Systems Dong Wang
... times for the wavepacket in the diabatic and adiabatic potentials and the electronic coupling between them. In the present work stable bistable wavepacket motion is studied not only for molecular-like systems but also for an ion trap system. The latter system consists of a harmonically trapped ion i ...
... times for the wavepacket in the diabatic and adiabatic potentials and the electronic coupling between them. In the present work stable bistable wavepacket motion is studied not only for molecular-like systems but also for an ion trap system. The latter system consists of a harmonically trapped ion i ...
electron transport in quantum dots. - Leo Kouwenhoven
... of order 100 nm [1]. Since the first studies in the late eighties, the physics of quantum dots has been a very active and fruitful research topic. These dots have proven to be useful systems to study a wide range of physical phenomena. We discuss here in separate sections the physics of artificial a ...
... of order 100 nm [1]. Since the first studies in the late eighties, the physics of quantum dots has been a very active and fruitful research topic. These dots have proven to be useful systems to study a wide range of physical phenomena. We discuss here in separate sections the physics of artificial a ...
Density Functional Study of Molecular Orbitals of Ferrocene and
... bond length on the two sides of the ligand have small variations due to the double bond ofC2-C4 which possess more energy to attract iron atom to-wards itself than the single bond on the other side, hence Fe-C2 and Fe-C4 bonds measure shorter distance than the bond inFe-C12. In the ferrocene molecul ...
... bond length on the two sides of the ligand have small variations due to the double bond ofC2-C4 which possess more energy to attract iron atom to-wards itself than the single bond on the other side, hence Fe-C2 and Fe-C4 bonds measure shorter distance than the bond inFe-C12. In the ferrocene molecul ...
Hydrogen atom in crossed electric and magnetic fields: Phase space
... particle accelerators [19] and fluid dynamics, e.g. statistics of turbulent flow [20]. The semiclassical quantization of the classical structures is an invaluable tool for the description of molecular vibrations [21–23], chemical reactions [24] or the spectra of Rydberg atoms [2, 9]. In this work we ...
... particle accelerators [19] and fluid dynamics, e.g. statistics of turbulent flow [20]. The semiclassical quantization of the classical structures is an invaluable tool for the description of molecular vibrations [21–23], chemical reactions [24] or the spectra of Rydberg atoms [2, 9]. In this work we ...
AdS/CFT Course Notes - Johns Hopkins University
... out. This makes it possible to rigorously define QCD as a mathematical theory. It seems that all QFTs can be viewed as points along an Renormalization Flow (or RG flow, this is the name we give to the zooming process) from a ‘UV’ CFT to another ‘IR’ CFT. Renormalization flows occur when we deform th ...
... out. This makes it possible to rigorously define QCD as a mathematical theory. It seems that all QFTs can be viewed as points along an Renormalization Flow (or RG flow, this is the name we give to the zooming process) from a ‘UV’ CFT to another ‘IR’ CFT. Renormalization flows occur when we deform th ...
On transport properties of Weyl semimetals - Instituut
... Weyl semimetal [18, 20–22]. At first sight, a Weyl semimetal is just a threedimensional version of graphene. However, the third spatial dimension plays a subtle, but powerful role, that distinguishes Weyl semimetals from graphene. Unlike in graphene, the existence and stability of the gapless points ...
... Weyl semimetal [18, 20–22]. At first sight, a Weyl semimetal is just a threedimensional version of graphene. However, the third spatial dimension plays a subtle, but powerful role, that distinguishes Weyl semimetals from graphene. Unlike in graphene, the existence and stability of the gapless points ...
Cavity Quantum Electrodynamics with Ultracold Atoms
... for two atoms inside the resonator. The properties of the light at the cavity output for this specific case have been studied in Refs. [11, 12]. To the best of our knowledge, however, the scaling of the dynamics with the number of atoms N is still largely unexplored in this regime. In Chapter 2 of th ...
... for two atoms inside the resonator. The properties of the light at the cavity output for this specific case have been studied in Refs. [11, 12]. To the best of our knowledge, however, the scaling of the dynamics with the number of atoms N is still largely unexplored in this regime. In Chapter 2 of th ...
Statistical Mechanics - Uwe
... thermodynamic properties from the underlying microscopic physics. At microscopic scales physics is governed by quantum mechanics. Hence, to some extent we will be dealing with quantum statistical mechanics. In general it will be difficult to derive the averaged thermodynamic quantities exactly from ...
... thermodynamic properties from the underlying microscopic physics. At microscopic scales physics is governed by quantum mechanics. Hence, to some extent we will be dealing with quantum statistical mechanics. In general it will be difficult to derive the averaged thermodynamic quantities exactly from ...
Classical and quantum mechanics via Lie algebras
... Almost without exception, this book is about precise concepts and exact results in classical mechanics, quantum mechanics, and statistical mechanics. The structural properties of mechanics are discussed independently of computational techniques for obtaining quantitatively correct numbers from the a ...
... Almost without exception, this book is about precise concepts and exact results in classical mechanics, quantum mechanics, and statistical mechanics. The structural properties of mechanics are discussed independently of computational techniques for obtaining quantitatively correct numbers from the a ...