It was found that the use of this non-local potential leads to a single-particle wave function with values in the alpha-particle "interior" greatly reduced from that given by an "equivalent" local potential ( ψ
A formalism and the corresponding numerical procedures that calculate the Fourier transform of a single-particle wave function defined on a grid of cylindrical ( \\\(ho\\\) , z ) coordinates is presented. Single-particle states in spherical and deformed nuclei have been chosen in view of futur...
Positron Annihilation in Perfect and Defective TiO2 Rutile Crystal with Single Particle Wave Function: Slater Type Orbital and Modified Jastrow FunctionsPositronAnnihilationJastrowLifetimeVQMCTiO2Positron annihilation in TiO_2 rutile crystal is studied by an assumption that a positron binds with valance ...
What is the average kinetic energy we would measure for a single particle governed by the wave function and bounds given? Ψ(x)=Asin(2x) 0≤x≤2π T^=−ℏ22m∂2∂x2 Average Kinetic Energy: A substance's all molecules do no...
As a fundamental characteristic of physical entities, wave‒particle duality describes whether a microscopic entity exhibits wave or particle attributes depending on the specific experimental setup. This assumption is premised on the notion that physical properties are inseparable from the objective carrier...
1a). The intensity of individual particles as a function of time reveals clear oscillatory behaviour (Fig. 2a,b). This is caused by the interference between the scattered field of each particle and the reference, which exhibits a constant phase shift ΔΦj and an additional temporally modulated...
The SP spectral function, A(q,omega), is worked out from the one-particle Matsubara Green's function. A stochastic optimization method is applied for reconstruction from imaginary times. In the superfluid regime sharp energy resonances are observed both in the density and SP excitations. The ...
process and of the physical properties of the material being fractured: this knowledge is expressed in open form as, (y), the linear probability density that a plane of fracture intersects at point y on an arbitrarily oriented line segment of total length x o through the original particle. Fr...
Levitated Nanoparticles have received much attention for their potential to perform quantum mechanical experiments even at room temperature. However, in the regime where the particle dynamics are purely classical there is a lot of interesting physics that can be explored. Here we review the application...
The Dicke model displays quantum chaotic dynamic properties in the without-rotating-wave approximation. We explore the dynamic properties of the single-particle coherence in Dicke model by using the first-order temporal correlation function and numerical simulation. The results reveal that the first-...