Ideal n-body correlations with massive particles
... To provide further detail on the three-body correlation function g(3)(Δz) in Fig. 2(b), we have also plotted in Fig. 3 a full 2D surface plot of the g(3)(Δz1, Δz2)-function to which g(3)(Δz) = g(3)(Δz, Δz) is the diagonal cut along Δz1= Δz2. To interpret the surface in Figure 3, one should realise ...
... To provide further detail on the three-body correlation function g(3)(Δz) in Fig. 2(b), we have also plotted in Fig. 3 a full 2D surface plot of the g(3)(Δz1, Δz2)-function to which g(3)(Δz) = g(3)(Δz, Δz) is the diagonal cut along Δz1= Δz2. To interpret the surface in Figure 3, one should realise ...
Model Visualization of Atomic Quantum Numbers Three
... Background: Knowledge of physics consists of many of the concepts and principles that are generally abstract. Physics is a subject that requires a relatively high intellect so that most students have difficulty to learn. Many difficulties faced by most of the students are in the interpret various co ...
... Background: Knowledge of physics consists of many of the concepts and principles that are generally abstract. Physics is a subject that requires a relatively high intellect so that most students have difficulty to learn. Many difficulties faced by most of the students are in the interpret various co ...
MC2521062109
... they are responsible for the forces present in the atom. Thus more than two bosons can occupy the same state at the same time. How do we explain this? We know by Einstein’s theory of relativity, that mass and energy are interconvertable by the equation e=mc^2. Hence to observe the independent forces ...
... they are responsible for the forces present in the atom. Thus more than two bosons can occupy the same state at the same time. How do we explain this? We know by Einstein’s theory of relativity, that mass and energy are interconvertable by the equation e=mc^2. Hence to observe the independent forces ...
A critique of recent semi-classical spin-half quantum plasma theories
... physics as it is usually applied in laboratory or astrophysical situations. We do not deal with truly quantum plasmas which have to be treated with methods of many-body quantum theory based on powerful tools like Greens functions, Master equations, density functionals and the like. The discussion he ...
... physics as it is usually applied in laboratory or astrophysical situations. We do not deal with truly quantum plasmas which have to be treated with methods of many-body quantum theory based on powerful tools like Greens functions, Master equations, density functionals and the like. The discussion he ...
From Quantum theory to Quantum theology: Abstract J
... In 1915, Einstein's theory of relativity changed the concept of absolute time3 • The remarkable consequences of this theory however, were not fully understood until a few years later. Where space and time were previously thought of as fixed values, they were now dynamic quantities: when a body moves ...
... In 1915, Einstein's theory of relativity changed the concept of absolute time3 • The remarkable consequences of this theory however, were not fully understood until a few years later. Where space and time were previously thought of as fixed values, they were now dynamic quantities: when a body moves ...
Quantum transport equations for Bose systems taking into account
... The problems of building a kinetic equation for Bose systems based on the microscopic approach were considered by Akhiezer and Peletminsky [21] and by Kirkpatrick and Dorfman [22–24]. The results of [22, 23] were extended and used to describe the trapped weakly-interacting Bose gases at finite temper ...
... The problems of building a kinetic equation for Bose systems based on the microscopic approach were considered by Akhiezer and Peletminsky [21] and by Kirkpatrick and Dorfman [22–24]. The results of [22, 23] were extended and used to describe the trapped weakly-interacting Bose gases at finite temper ...
Quantum Picture of the Josephson Junction
... infinitely high (actually very low in this case), there must be a transmission rate (or quantum tunneling rate) for each state. From the sketch of the functions, we can roughly tell that the tunneling rate of state 2 and 3 are much larger than that of state 0 and 1. Actually, this difference in tunn ...
... infinitely high (actually very low in this case), there must be a transmission rate (or quantum tunneling rate) for each state. From the sketch of the functions, we can roughly tell that the tunneling rate of state 2 and 3 are much larger than that of state 0 and 1. Actually, this difference in tunn ...
... Wick ordering in quantum mechanics [4], although not quite the same. I do not know if the identity (4) has any bearing on this subject. Two proofs of this identity will be discussed. The first is an application of the classical Lagrange inversion theorem [3], [7]. In fact, it will follow that the op ...
Reply to seven commentaries on “Consciousness in the universe: ScienceDirect
... S. Hameroff, R. Penrose / Physics of Life Reviews 11 (2014) 94–100 ...
... S. Hameroff, R. Penrose / Physics of Life Reviews 11 (2014) 94–100 ...
Basic Characteristics of Electromagnetic Radiation
... second summand being inversely proportional to the distance R and depending on the charge acceleration, characterizes the radiation wave field (‘‘acceleration field’’) [1]. The range of the distances R, where the contribution of the first summand is negligible in comparison with the contribution of ...
... second summand being inversely proportional to the distance R and depending on the charge acceleration, characterizes the radiation wave field (‘‘acceleration field’’) [1]. The range of the distances R, where the contribution of the first summand is negligible in comparison with the contribution of ...
Superconducting phase qubit coupled to a nanomechanical resonator:
... RWA or Jaynes-Cummings Hamiltonian for a quantum twolevel system linearly coupled to a harmonic oscillator or single-mode boson field, a model central to many current quantum computing architectures. Such corrections are necessary to treat the fast information-processing regime where the interaction ...
... RWA or Jaynes-Cummings Hamiltonian for a quantum twolevel system linearly coupled to a harmonic oscillator or single-mode boson field, a model central to many current quantum computing architectures. Such corrections are necessary to treat the fast information-processing regime where the interaction ...
Foundations and Measures of Quantum Non
... are usually obtained by means of the Born-Markov approximation which assumes a weak system-environment coupling and several further, mostly rather drastic approximations. However, in many processes occurring in nature these approximations are not applicable, a situation which occurs, in particular, ...
... are usually obtained by means of the Born-Markov approximation which assumes a weak system-environment coupling and several further, mostly rather drastic approximations. However, in many processes occurring in nature these approximations are not applicable, a situation which occurs, in particular, ...