Lecture - Rutgers Physics
... continuous. We will use a trick that is common in quantum mechanics: assume that a particle is in a large box (energy quantization) with zero potential energy (total energy= kin. energy). At the end of the calculation, we’ll allow the size of the box to become infinite, so that the separation of the ...
... continuous. We will use a trick that is common in quantum mechanics: assume that a particle is in a large box (energy quantization) with zero potential energy (total energy= kin. energy). At the end of the calculation, we’ll allow the size of the box to become infinite, so that the separation of the ...
Ultracold Atoms in Artificial Gauge Fields by Tobias Graß PhD Thesis
... In the first part we focus on fractional quantum Hall effects, asking whether interesting topological states can be realized with cold atoms. We start by making a close connection to solid-state systems and first consider fermionic atoms with dipolar interactions. Assuming the system to be in the La ...
... In the first part we focus on fractional quantum Hall effects, asking whether interesting topological states can be realized with cold atoms. We start by making a close connection to solid-state systems and first consider fermionic atoms with dipolar interactions. Assuming the system to be in the La ...
pdf file - Wayne State University Physics and Astronomy
... Both the normal force and the weight act through the center of mass so Στ = 0. This means that the object cannot rotate when only these two forces are applied. ...
... Both the normal force and the weight act through the center of mass so Στ = 0. This means that the object cannot rotate when only these two forces are applied. ...
This rigid form is made with sticks hinged together and forms a field
... 34. One-dimensional loop circuiting of form has been shown in Fig.3. What about the threedimensional circuiting of form? 35. All models of the atom that I have seen described by physics are one-dimensional loop/rings for the electron(s) and a sphere (or sphere clusters) for the nuclei. Hence, since ...
... 34. One-dimensional loop circuiting of form has been shown in Fig.3. What about the threedimensional circuiting of form? 35. All models of the atom that I have seen described by physics are one-dimensional loop/rings for the electron(s) and a sphere (or sphere clusters) for the nuclei. Hence, since ...
Visualizing the Coupling between Red and Blue Stark States
... the semiclassical predictions. These images were recorded in the vicinity of avoided crossings between red and blue Stark states, and reveal the nodal structure along the ξ coordinate of the red Stark states involved. To illustrate this, Figs. 3(a)–3(f) show raw images and extracted radial distribut ...
... the semiclassical predictions. These images were recorded in the vicinity of avoided crossings between red and blue Stark states, and reveal the nodal structure along the ξ coordinate of the red Stark states involved. To illustrate this, Figs. 3(a)–3(f) show raw images and extracted radial distribut ...
Quantum States of Neutrons in the Gravitational Field
... The main focus of this thesis lies on chapter 3, where we further develop the results from the first chapter into a detailed theoretical description of the experiment and the measurement process. Within the framework of quantum mechanics, this yields a prediction of the density distribution of low-e ...
... The main focus of this thesis lies on chapter 3, where we further develop the results from the first chapter into a detailed theoretical description of the experiment and the measurement process. Within the framework of quantum mechanics, this yields a prediction of the density distribution of low-e ...
hybrid quantum computation - Centre for Quantum Technologies
... to study the dynamics of material bodies, while Maxwell’s electromagnetism provided the proper framework to investigate radiation. Matter and radiation were described in terms of particles and waves, respectively. The interaction between matter and radiation were given by the Lorentz force or explai ...
... to study the dynamics of material bodies, while Maxwell’s electromagnetism provided the proper framework to investigate radiation. Matter and radiation were described in terms of particles and waves, respectively. The interaction between matter and radiation were given by the Lorentz force or explai ...
IEEE Transactions on Magnetics
... or almost cognitive abilities; amoeba can search for food whereas paramecium can avoid obstacles [3]. If these singlecelled organisms completely lack a nervous system, then how can these adaptive or so-called cognitive abilities be possible? A logical explanation is that microtubules provide communi ...
... or almost cognitive abilities; amoeba can search for food whereas paramecium can avoid obstacles [3]. If these singlecelled organisms completely lack a nervous system, then how can these adaptive or so-called cognitive abilities be possible? A logical explanation is that microtubules provide communi ...
Electronic Structure: Density Functional Theory
... Similar to the cohesive energy of solids one sees a clear improvement as one goes from LDA to GGA. Further improvement is achieved on the meta-GGA level but, for this particular ...
... Similar to the cohesive energy of solids one sees a clear improvement as one goes from LDA to GGA. Further improvement is achieved on the meta-GGA level but, for this particular ...
Functional-Integral Representation of Quantum Field Theory {functint
... For free fields, Z[0] is equal to the partition function of a set of harmonic oscillators of frequencies ω(k) for all momenta k. This statement can be proved only in the lattice version of the theory. In the continuum limit the statement is nontrivial, since the determinants on the right-hand sides ...
... For free fields, Z[0] is equal to the partition function of a set of harmonic oscillators of frequencies ω(k) for all momenta k. This statement can be proved only in the lattice version of the theory. In the continuum limit the statement is nontrivial, since the determinants on the right-hand sides ...
A Simple Theory
... constructed from basic objects according to certain rules. Basic theoretical objects are of independent construction; that is, they cannot be constructed from each other. The set of the mature physical theory’s basic objects forms the basis, i.e. a definite subsystem of theoretical objects. All the ...
... constructed from basic objects according to certain rules. Basic theoretical objects are of independent construction; that is, they cannot be constructed from each other. The set of the mature physical theory’s basic objects forms the basis, i.e. a definite subsystem of theoretical objects. All the ...
Polarization statistics
... The first one is an entangled pure state while the second is a mixed separable state. In both cases the polarization state is always the same for the two waves. We have the 50% superposition of two orthogonal possibilities for such polarization state, for example n photons vibrating in axis X and 0 ...
... The first one is an entangled pure state while the second is a mixed separable state. In both cases the polarization state is always the same for the two waves. We have the 50% superposition of two orthogonal possibilities for such polarization state, for example n photons vibrating in axis X and 0 ...
annual report 2015 - ARC Centre of Excellence for Engineered
... understanding of this fundamental physical theory has given us the information revolution, home computers, iPhones, GPS, atomic clocks and Magnetic Resonance Imaging (MRI). From flat-panel monitors to optical networks, quantum mechanics has allowed us to engineer the technologies that shape our worl ...
... understanding of this fundamental physical theory has given us the information revolution, home computers, iPhones, GPS, atomic clocks and Magnetic Resonance Imaging (MRI). From flat-panel monitors to optical networks, quantum mechanics has allowed us to engineer the technologies that shape our worl ...
