Analytical Potential Energy Function for the Ground State X^{1} Sigma^+ of LaCl

The equilibrium geometry, harmonic frequency and dissociation energy of lanthanum monochloride have been calculated at B3LYP, MP2, QCISD(T) levels with energy-consistent relativistic effective core potentials. The possible electronic state and reasonable dissociation limit for the ground state are determined based on atomic and molecular reaction statics. Potential energy curve scans for the ground state X^{1} Sigma^+ have been carried out with B3LYP and QCISD(T) methods due to their better performance in bond energy calculations. We find the potential energy calculated with QCISD(T) method is about 0.5 eV larger than dissociation energy when the diatomic distance is as large as 0.8 nm. The problem that single-reference ab initio methods don't meet dissociation limit during calculations of lanthanide heavy-metal elements is analyzed. We propose the calculation scheme to derive analytical Murrell-Sorbie potential energy function and Dunham expansion at equilibrium position. Spectroscopic constants got by standard Dunham treatment are in good agreement with results of rotational analyses on spectroscopic experiments. The analytical function is of much realistic importance since it is possible to be applied to predict fine transitional structure and study reaction dynamic process.Comment: 10 pages, 1 figure, 3 table

Non-magnetic Stern-Gerlach Experiment from Electron Diffraction

Using the wave nature of the electrons, we demonstrate that a transverse spin current can be generated simply by the diffraction through a single slit in the spin-orbital coupling system of the two-dimensional electron gas. The diffracted electron picks up the transverse momentum. The up spin electron goes one way and the down spin electron goes the other, producing the coherent spin current. In the system of spin-orbital coupling $\sim10^{-13}$ eV$\cdot$m, the \emph{out-of-plane} component of the spin of the electron can be generated up to 0.42 $\hbar$. Based on this effect, a novel device of grating to distill spin is designed. Two first diffraction peaks of electron carry different spins, duplicating the non-magnetic version of Stern-Gerlach experiment. The direction of the spin current can be controlled by the gate voltage with low energy cost.Comment: 4 pages, 4 figure

Study of Satisfaction of Inpatient Discharge Based on Nurses’ Perceptions

Patient satisfaction plays an important role in providing quality health care, and discharge satisfaction is part of overall patient satisfaction since it reveals how patients feel about their stay. In this paper, we evaluated inpatient discharge satisfaction based on nurses’ perceptions. An anonymous survey was used to evaluate how satisfied the patients were when being discharged from the acute care hospital with survey questions answered by nurses who work on medical-surgical floors. Data was collected from the questionnaires and analyzed using Excel

On the Analysis of the Style and Feature of Wang Zhixin’s Vocal Music Composition

Wang Zhixin is a famous vocal music composer and conductor in China. He has created hundreds of renowned vocal composition in his past forty years of musical art career, for instance, Lan Huahua (The Flower of Orchid), Meng Jiangnv (The Legend of A Loyal Widow), The Spring of China, Mei Huayin (Ode to the Plum Blossom). All of these mentioned above are his most representative works. He absorbs not only the singing methods from the folk tunes and traditional Chinese opera, but also the composition skills on modern vocal music. His composition, thus, is full of multi-nationality, particularity of times and multi-variety. This paper will elaborate on the above three aspects to analyze the Style and Feature of Wang Zhixin’s Vocal Music Composition.</p

Towards a Meditation Brain State Model Using Electroencephalographic Data

Meditation has clear effects in bringing practitioners’ mind into a tranquil state and promoting both the mental and the physical health. The effect of meditation is measurable. We propose to establish a model for meditation state by applying modern experimental sciences to brain wave data. We start with a project that aims to create an application that takes electroencephalographic (EEG) data and exposes it to various analytical techniques so the resultant brain states can be studied and predicted. We present explanations of the design and implementation offered herein. Furthermore, a summary of the application’s functionality is elucidated. Upon completion, we anticipate that this software can be used to produce important and dependable conclusions about a given subject’s brain states and correlate that to an identified physical or psy-chological activity. Although our project is still in an early stage towards a model for meditation, through these studies, we believe we will be able to make meditation a beneficial practice to promote human’s life in modern society