Topological Hunds rules and the electronic properties of a triple
... this system onto those of the three-spin Heisenberg model. Scarola and Das Sarma33 used the Hubbard, variational, and exact diagonalization approaches to demonstrate that this mapping can be carried out only for a limited range of triple-dot parameters. Mizel and Lidar34,35,36 arrived at similar con ...
... this system onto those of the three-spin Heisenberg model. Scarola and Das Sarma33 used the Hubbard, variational, and exact diagonalization approaches to demonstrate that this mapping can be carried out only for a limited range of triple-dot parameters. Mizel and Lidar34,35,36 arrived at similar con ...
Cooling and Trapping Neutral Atoms
... atoms, and molecules Such systems have become an ultralow-temperature laboratory for atom optics and collisional physics, and also for many-body physics that encompasses phenomena as phonons, superfluidity, quantized vortices, Josephson junctions, and quantum phase transitions. Most of our results i ...
... atoms, and molecules Such systems have become an ultralow-temperature laboratory for atom optics and collisional physics, and also for many-body physics that encompasses phenomena as phonons, superfluidity, quantized vortices, Josephson junctions, and quantum phase transitions. Most of our results i ...
Adaptive Wave Models for Sophisticated Option Pricing
... Adaptive wave model for financial option pricing is proposed, as a high-complexity alternative to the standard Black-Scholes model. The new option-pricing model, representing a controlled Brownian motion, includes two wave-type approaches: nonlinear and quantum, both based on (adaptive form of) the ...
... Adaptive wave model for financial option pricing is proposed, as a high-complexity alternative to the standard Black-Scholes model. The new option-pricing model, representing a controlled Brownian motion, includes two wave-type approaches: nonlinear and quantum, both based on (adaptive form of) the ...
Close-coupling study of rotational energy transfer of CO(v=2) by
... Very recently, Carty et al. [5] reported experimental rate coefficients and thermally averaged cross sections at different temperatures for RET in collisions between CO(v=2, j=0, 1, 4, and 6) and He using the infrared-vacuum ultraviolet double resonance technique. The measurements provide the most e ...
... Very recently, Carty et al. [5] reported experimental rate coefficients and thermally averaged cross sections at different temperatures for RET in collisions between CO(v=2, j=0, 1, 4, and 6) and He using the infrared-vacuum ultraviolet double resonance technique. The measurements provide the most e ...
Orbital Analogue of the Quantum Anomalous Hall
... gauge potential generated by laser beams [23–27]. Recently, a construction of Haldane’s model has also been proposed [25] by superposing a periodic lightinduced gauge potential with a honeycomb optical lattice. In this article, we propose an orbital analogue of the quantum anomalous Hall (QAH) effec ...
... gauge potential generated by laser beams [23–27]. Recently, a construction of Haldane’s model has also been proposed [25] by superposing a periodic lightinduced gauge potential with a honeycomb optical lattice. In this article, we propose an orbital analogue of the quantum anomalous Hall (QAH) effec ...
Quantum Mechanics Lecture 8: Relativistic Quantum Mechanics
... it has an important physical implication: we can apply the KFG equation only to particles which are described by scalar or pseudoscalar wave functions. Such particles do exist, for instance pions and kaons, which are pseudoscalar particles, but electrons are not scalar particles and their wave funct ...
... it has an important physical implication: we can apply the KFG equation only to particles which are described by scalar or pseudoscalar wave functions. Such particles do exist, for instance pions and kaons, which are pseudoscalar particles, but electrons are not scalar particles and their wave funct ...
Bose-Einstein condensation
... new route to ultracold temperatures that does not involve cryogenics. Atoms at sub-millikelvin temperatures are now routinely used in a variety of experiments. Alkali atoms are well suited to laser-based methods because their optical transitions can be excited by available lasers and because they ha ...
... new route to ultracold temperatures that does not involve cryogenics. Atoms at sub-millikelvin temperatures are now routinely used in a variety of experiments. Alkali atoms are well suited to laser-based methods because their optical transitions can be excited by available lasers and because they ha ...
Dynamics of Entanglement for Two-Electron Atoms
... The study of quantum entanglement for systems with continuous degrees of freedom possess a number of extra problems when they are compared with systems with discrete degrees of freedom. One particularly acute is the lack of exact solutions. The existence of exact solutions has contributed enormously ...
... The study of quantum entanglement for systems with continuous degrees of freedom possess a number of extra problems when they are compared with systems with discrete degrees of freedom. One particularly acute is the lack of exact solutions. The existence of exact solutions has contributed enormously ...
Nonlinear atom optics - University of Arizona
... ways to manipulate atomic trajectories. These include the use of evanescent waves acting as atomic mirrors, standing waves of light serving as diffraction gratings, internal-atomic-state transitions enabling novel atomic beam splitters, and configurable optical fields for the creation of atomic trap ...
... ways to manipulate atomic trajectories. These include the use of evanescent waves acting as atomic mirrors, standing waves of light serving as diffraction gratings, internal-atomic-state transitions enabling novel atomic beam splitters, and configurable optical fields for the creation of atomic trap ...
Atomic Physics - Oxford Physics
... case, for most of the time, a major part of the repulsion between one electron and the others acts towards the centre. So we replace the 1/r, hydrogen-like, potential with an effective potential due to the nucleus and the centrally acting part of the 1/rij repulsion term. We call this the Central Fi ...
... case, for most of the time, a major part of the repulsion between one electron and the others acts towards the centre. So we replace the 1/r, hydrogen-like, potential with an effective potential due to the nucleus and the centrally acting part of the 1/rij repulsion term. We call this the Central Fi ...
Wave Function as Geometric Entity
... other zero we can obtain the Dirac spinor with four element. With the help this column can reproduce spinor presentation every Clifford number. Exist full correspondence between the spinor column and the elements of an exterior algebra. Next we would like determine the rule of comparing two Clifford ...
... other zero we can obtain the Dirac spinor with four element. With the help this column can reproduce spinor presentation every Clifford number. Exist full correspondence between the spinor column and the elements of an exterior algebra. Next we would like determine the rule of comparing two Clifford ...