数字人体微观研究-量子人体与人体的关系

根据量子人体与人体研究方法的区别,本文首先介绍了量子人体与人体的对应原理,然后描述了量子人体谐振子的相干态,最后对量子人体的Rydberg波包,波形的演化与恢复作了阐述,为数字人体微观研究,阐述量子人体与人体的对应关系提供了理论基础.     

Ketone body transport in the human neonate and infant.

Using a continuous intravenous infusion of D-(-)-3-hydroxy[4,4,4-2H3]butyrate tracer, we measured total ketone body transport in 12 infants: six newborns, four 1-6-mo-olds, one diabetic, and one hyperinsulinemic infant. Ketone body inflow-outflow transport (flux) averaged 17.3 +/- 1.4 mumol kg-1 min-1 in the neonates, a value not different from that of 20.6 +/- 0.9 mumol kg-1 min-1 measured in the older infants. This rate was accelerated to 32.2 mumol kg-1 min-1 in the diabetic and slowed to 5.0 mumol kg-1 min-1 in the hyperinsulinemic child. As in the adult, ketone turnover was directly proportional to free fatty acid and ketone body concentrations, while ketone clearance declined as the circulatory content of ketone bodies increased. Compared with the adult, however, ketone body turnover rates of 12.8-21.9 mumol kg-1 min-1 in newborns fasted for less than 8 h, and rates of 17.9-26.0 mumol kg-1 min-1 in older infants fasted for less than 10 h, were in a range found in adults only after several days of total fasting. If the bulk of transported ketone body fuels are oxidized in the infant as they are in the adult, ketone bodies could account for as much as 25% of the neonate's basal energy requirements in the first several days of life. These studies demonstrate active ketogenesis and quantitatively important ketone body fuel transport in the human infant. Furthermore, the qualitatively similar relationships between the newborn and the adult relative to free fatty acid concentration and ketone inflow, and with regard to ketone concentration and clearance rate, suggest that intrahepatic and extrahepatic regulatory systems controlling ketone body metabolism are well established by early postnatal life in humans.     

Probiotics as flourishing benefactors for the human body.

This article provides a comprehensive review of the beneficial effects of various strains of probiotics in preventing and treating certain diseases. Currently, changed lifestyles as well as the increased use of antibiotics are significant factors challenging the preservation of a healthy intestinal microflora. The concept of probiotics is to restore and uphold a microflora advantageous for the human body. Probiotics are found in a number of fermented dairy products, infant formula, and dietary supplements. In the presence of prebiotics, which are nondigestible food ingredients favorable for probiotic growth, their survival in the intestine is ameliorated.     

数字人体微观研究——量子人体态和力学量的表象

本文主要从量子人体态的表象,量子人体算符的矩阵表示,量子人体公式的矩阵表述,量子人体的么正变换,量子人体的狄喇克符号和量子人体线性谐振子与占有数表象六个方面进行了研究,得到了满意的结果;为数字人体的微观研究提供了理论依据.     

数字人体微观研究——量子人体的时间反演

在量子人体中,关于人体系统相互作用的时间反演不变性问题,笔者进行了探讨.研究表明,人体系统中强相互作用和电磁作用具有时间反演不变性,在人体系统弱作用中时间反演不变性不再完全成立.本文首先从人体系统的量子态描述:介绍了量子人体的时间反演态与时间反演算符;然后从人体中的时间反演不变性、量子人体中的时间反演不变性、量子人体的Schrodinger方程与时间反演不变性、量子人体的T2本征值与统计性的关系和量子人体的Kramers简并5个方面阐述了量子人体的时间反演不变性;最后讨论了量子人体力学量的分类与矩阵元的计算,为数字人体研究提供了理论和实验依据.     

数字人体微观研究——量子人体的自旋

本文围绕数字人体微观领域,开展了量子人体的自旋研究.主要内容有量子人体的电子自旋;量子人体的电子自旋算符和自旋函数;量子人体的塞曼效应和量子人体的两个角动量的耦合,为数字人体微观研究提供理论基础和实验依据.     

数字人体微观研究——量子人体的全同粒子

本文围绕数字人体微观领域,开展了量子人体的全同粒子研究.主要内容有量子人体全同粒子的特性;量子人体全同粒子系统的波函数泡利原理;为数字人体的微观研究提供理论基础和实验依据.     

数字人体微观研究——量子人体的微扰理论

本文围绕数字人体微观领域,开展了量子人体的微扰理论研究.主要内容有量子人体的非简并态微扰理论;量子人体简并情况下的微扰理论;量子人体的变分法;量子人体与时间有关的微扰理论;量子人体的跃迁几率;量子人体的光的发射和吸收以及量子人体的选择定则,为数字人体微观研究提供理论基础和实验依据.     

数字人体的微观研究——量子人体

在数字人体-人体系统数字学研究的基础上,为了更深入、更深刻地认识和研究数字人体,笔者从量子层次上提出了数字人体微观研究--量子人体的新概念,主要内容有量子人体的研究方法、量子人体基础理论、量子人体机理模型和量子人体研究领域等,为数字人体的研究提供了理论方法.     

数字人体热红外图像特征和人体表面三维重构

在数字人体理论和模型研究基础上,开展了数字人体热红外图像特征和人体表面三维重构研究。主要内容有数字人体热红外技术的特点与优势、数字人体热红外图像实验研究、数字人体三维重建原理与步骤等。数字人体热红外图像特征和人体表面三维重构是数字人体研究及应用的一个重要组成部分,具有广阔的应用前景。     

数字人体微观研究——量子人体的Feynman路径积分与相位及二次量子化

围绕数字人体微观领域,开展了量子人体的Feynman路径积分与相位及二次量子化研究.主要内容有从量子人体的Feynman路径积分到Schrdinger波动方程;量子人体中的相位,包括人体系统中磁AB效应和人体系统中电AB效应;量子人体的二次量子化,包括全同粒子量子人体态表象,产生算符与湮没算符,全同Bose子人体系统的量子人体态描述;为数字人体微观研究提供理论和实验依据.