Selected Topics in Teleparallel Gravity
... gravity, in which the equations of motion are not geodesics but force equations quite analogous to the electromagnetic Lorentz force equation, the question then arises whether the gauge approach of teleparallel gravity would also be able to describe the gravitational interaction in the lack of unive ...
... gravity, in which the equations of motion are not geodesics but force equations quite analogous to the electromagnetic Lorentz force equation, the question then arises whether the gauge approach of teleparallel gravity would also be able to describe the gravitational interaction in the lack of unive ...
1AMQ, Part II Quantum Mechanics
... collisions, fluorescence (absorption and reemission of light) etc. The emitted light can be analysed with a prism or diffraction grating with a narrow collimating slit (see figure below). The dispersed image shows a series of lines corresponding to different wavelengths, called a line spectrum. (not ...
... collisions, fluorescence (absorption and reemission of light) etc. The emitted light can be analysed with a prism or diffraction grating with a narrow collimating slit (see figure below). The dispersed image shows a series of lines corresponding to different wavelengths, called a line spectrum. (not ...
The Mean-Field Limit for the Dynamics of Large Particle Systems
... potential describing the pairwise interaction exerted by a particle located at position y on a particle located at position x. Vlasov’s equation reads · ∇x f + F (t, x) · ∇ξ f = 0 , x, ξ ∈ RD , ...
... potential describing the pairwise interaction exerted by a particle located at position y on a particle located at position x. Vlasov’s equation reads · ∇x f + F (t, x) · ∇ξ f = 0 , x, ξ ∈ RD , ...
HOW TO DEAL WITH THE ARROW OF TIME GIUSEPPE VITIELLO
... environment and not even the details of the system-environment coupling: therefore, for such a limited task, we may ”simulate” the environment as a collection of oscillators whose k-modes match the k-modes of our damped oscillator. With such a choice the environment, depicted as the system time-reve ...
... environment and not even the details of the system-environment coupling: therefore, for such a limited task, we may ”simulate” the environment as a collection of oscillators whose k-modes match the k-modes of our damped oscillator. With such a choice the environment, depicted as the system time-reve ...
Why Quarks are Different from Leptons –
... With respect to the physical interpretation of this formalism two comments have to be added: i) The algebraic Schroedinger representation is the formulation of the Hamilton formalism for quantum fields independently of perturbation theory. Nevertheless, for the justification of this procedure the fi ...
... With respect to the physical interpretation of this formalism two comments have to be added: i) The algebraic Schroedinger representation is the formulation of the Hamilton formalism for quantum fields independently of perturbation theory. Nevertheless, for the justification of this procedure the fi ...
1 Introduction - High Point University
... We are all familiar with light. Through light we see the world. But what is it? Light can be thought of as “particles” of electromagnetic energy called photons. Photons exhibit many properties that we are familiar with as particles. But light also exhibits wavelike properties (which property—wave or ...
... We are all familiar with light. Through light we see the world. But what is it? Light can be thought of as “particles” of electromagnetic energy called photons. Photons exhibit many properties that we are familiar with as particles. But light also exhibits wavelike properties (which property—wave or ...
Phys. Rev. Lett. 115, 155302
... Bogoliubov excitations and is thus intrinsically quantum. It is also universal in the sense that it depends only on the two-body scattering length and not on other parameters of the two-body or higher-order interactions. Quite naturally the experimental observation of this fundamental beyond mean-fi ...
... Bogoliubov excitations and is thus intrinsically quantum. It is also universal in the sense that it depends only on the two-body scattering length and not on other parameters of the two-body or higher-order interactions. Quite naturally the experimental observation of this fundamental beyond mean-fi ...
Atomistic description of wave function localization effects in InxGa1
... a model system we assume a 3.5 nm thick In0.25 Ga0.75 N/GaN QW. All QW calculations have been performed on SCs containing ≈ 82,000 atoms (≈ 10nm × 9nm × 10nm) with periodic boundary conditions. Following the experimental data in Refs.,?, ?, ?, ? we treat Inx Ga1−x N as a random alloy and include WWF ...
... a model system we assume a 3.5 nm thick In0.25 Ga0.75 N/GaN QW. All QW calculations have been performed on SCs containing ≈ 82,000 atoms (≈ 10nm × 9nm × 10nm) with periodic boundary conditions. Following the experimental data in Refs.,?, ?, ?, ? we treat Inx Ga1−x N as a random alloy and include WWF ...
The Zeeman Effect - McGill Undergraduate Physics Lab
... The Zeeman Effect is named after its Dutch discoverer, Pieter Zeeman (depicted on the front cover of this report). In 1896 he began to study the effect of an external magnetic field on light. He noticed that spectral lines split under the influence the field, and although he could not then fully exp ...
... The Zeeman Effect is named after its Dutch discoverer, Pieter Zeeman (depicted on the front cover of this report). In 1896 he began to study the effect of an external magnetic field on light. He noticed that spectral lines split under the influence the field, and although he could not then fully exp ...
a from the quantum Hall effect
... background which is easy to subtract. The cosmic background level was measured by taking data at long times after the linac burst. The beam particles can create other states with short lifetimes. Their decays may trigger the telescope and mimic a positron from muon decay. They will be correlated wit ...
... background which is easy to subtract. The cosmic background level was measured by taking data at long times after the linac burst. The beam particles can create other states with short lifetimes. Their decays may trigger the telescope and mimic a positron from muon decay. They will be correlated wit ...
Selected Topics in Teleparallel Gravity
... the gravitational interaction is described by a force similar to the Lorentz force equation of electrodynamics, with torsion playing the role of force [4]. On the other hand, due to the universality of free fall, it is also possible to describe gravitation not as a force, but as a geometric deformat ...
... the gravitational interaction is described by a force similar to the Lorentz force equation of electrodynamics, with torsion playing the role of force [4]. On the other hand, due to the universality of free fall, it is also possible to describe gravitation not as a force, but as a geometric deformat ...
Generation of nonclassical states from thermal radiation
... is highly singular or not positive, i.e. it cannot be interpreted as a classical probability distribution. In general however, since the P function can be badly behaved, it cannot be connected to any observable quantity. A conceptually simple way to generate a quantum light state with a varying degr ...
... is highly singular or not positive, i.e. it cannot be interpreted as a classical probability distribution. In general however, since the P function can be badly behaved, it cannot be connected to any observable quantity. A conceptually simple way to generate a quantum light state with a varying degr ...
Document
... —quantum entanglement of the spin states of two individual massive particles at a distance…I present the theory and the experimental realization of the entanglement of two trapped atomic ions separated by one meter. Trapped ions are among the most attractive systems for scalable quantum information ...
... —quantum entanglement of the spin states of two individual massive particles at a distance…I present the theory and the experimental realization of the entanglement of two trapped atomic ions separated by one meter. Trapped ions are among the most attractive systems for scalable quantum information ...
1 - Capri Spring School
... particular, to both a good or weakly transmitting strongly correlated conductor, independently on experimental details and many-body correlated states, as well as quantum circuits. We show that bot observables can be expressed in a universal way through the non-equilibrium DC current only, yielding ...
... particular, to both a good or weakly transmitting strongly correlated conductor, independently on experimental details and many-body correlated states, as well as quantum circuits. We show that bot observables can be expressed in a universal way through the non-equilibrium DC current only, yielding ...
Introduction to Quantum Computation
... create a secret shared key by using a channel that can be eavesdropped. Classically: secure if discrete log hard. Quantum: secure if quantum mechanics ...
... create a secret shared key by using a channel that can be eavesdropped. Classically: secure if discrete log hard. Quantum: secure if quantum mechanics ...
Lecture Notes
... • Then eliminate high number terms • Works with simulated data, not so well in real experiment A. Anis and AL, New Journal of Physics 14, 105021 (2012) ...
... • Then eliminate high number terms • Works with simulated data, not so well in real experiment A. Anis and AL, New Journal of Physics 14, 105021 (2012) ...
Quantum Theories of Mind
... more waves we need to specify it.14 Since each wavelength is a different momentum, the more waves we need, the more possible values there are for a momentum measurement, which is trying to determine the wavelength. Conversely, the more accurate the wavelength or momentum, the less certain the positi ...
... more waves we need to specify it.14 Since each wavelength is a different momentum, the more waves we need, the more possible values there are for a momentum measurement, which is trying to determine the wavelength. Conversely, the more accurate the wavelength or momentum, the less certain the positi ...