Unprincipled microgravity

I argue that the key principle of microgravity is what I have called elsewhere the Lorentzian strategy. This strategy may be seen as either a reverse-engineering approach or a descent with modification approach, but however one sees if the method works neither by attempting to propound a theory that is the quantum version of either an extant or generalized gravitation theory nor by attempting to propound a theory that is the final version of quantum mechanics and finding gravity within it. Instead the method works by beginning with what we are pretty sure is a good approximation to the low-energy limit of whatever the real microprocesses are that generate what we experience as gravitation. This method is powerful, fruitful, and not committed to principles for which we have, as yet, only scant evidence; the method begins with what we do know and teases out what we can know next. The principle is methodological, not ontological.     

Localization and the interface between quantum mechanics, quantum field theory and quantum gravity II: The search of the interface between QFT and QG

The main topics of this second part of a two-part essay are some consequences of the phenomenon of vacuum polarization as the most important physical manifestation of modular localization. Besides philosophically unexpected consequences, it has led to a new constructive “outside-inwards approach” in which the pointlike fields and the compactly localized operator algebras which they generate only appear from intersecting much simpler algebras localized in noncompact wedge regions whose generators have extremely mild almost free field behavior.Another consequence of vacuum polarization presented in this essay is the localization entropy near a causal horizon which follows a logarithmically modified area law in which a dimensionless area (the area divided by the square of dR where dR is the thickness of a light-sheet) appears. There are arguments that this logarithmically modified area law corresponds to the volume law of the standard heat bath thermal behavior. We also explain the symmetry enhancing effect of holographic projections onto the causal horizon of a region and show that the resulting infinite dimensional symmetry groups contain the Bondi–Metzner–Sachs group. This essay is the second part of a partitioned longer paper.     

水下核爆作用下混凝土重力坝模型破坏试验

采用落锤冲击模拟水下核爆的一次冲击波对混凝土重力坝的作用.试验遵循弹性-重力联合相似准则,并以冲量相似条件确定冲击摆的质量与悬挂高度.对两种坝体和坝基接触条件,即一种在平滑基底上筑坝,一种在锚固基底上筑坝,开展模型坝的冲击试验,得到模型坝体的动力特性.试验结果表明,坝体破坏模式包括贯穿性断裂、滑移、碎裂、层裂和抛掷等.并初步研究了核爆输入能量和大坝耗散能量之间的平衡关系.     

引力产生的机理

文章从物质粒子的基本结构入手,分析了几种对引力不能自洽的理论,提出引力为物质结构中真空间隙所产生。     

萘及其1-卤素取代化合物的荧光光谱的量子化学研究

萘及其化合物一般具有较大的共轭体系,是一类良好的电致发光材料.对萘及其卤代化合物的荧光光谱进行了理论研究.在B3LYP/6-31G水平下优化了4种化合物的几何构型.在振动分析中,均未出现虚频率.基于此,在B3LYP/6-31G的水平下计算了该类化合物的荧光光谱,所有计算结果与实验值基本吻合.     

中国大地震规律初探——爆炸地质动力学理论在地震研究中的应用

地震是地球断裂构造释放能量的窗口,含能量积聚、触发、爆发和沉寂过程。地震是震源断裂结构的爆裂过程,断裂结构内压力超过岩层的断裂强度和重力之和时,地震随之爆发。对地震的触发,太阳活动影响最大,月球和太阳引力也有影响。断裂结构内的磁场异变和赵锬的形变矢量观察具有临震警报意义。     

算子代数上同调论进展

本文系统地总结了算子代数上同调理论的产生和发展过程。全面地介绍了已见到的各种算子代数上同调理论及其相互关系。并阐述了这个理论在导子的提升,一般的提升,扩张问题,摄动理论和量子力学半群等方面的最新结果。最后,还提出了有待研究、解决的十个问题。     

供热堆中影响重力注硼速度的因素

重力注硼系统不仅设备简单、经济，而且具有固有安全的特点。本文采用一组双组分两相流体五方程式描述系统的物理过程，分析影响注硼速度的因素。分析结果说明：在所关心的范围内，反应堆压力容器内不凝结气体的分压力和注硼管直径的影响最大。     

重力坝抗震动力可靠度分析

论述重力坝抗震动力可靠度分析中的几个基本问题，即地震作用下坝可靠度计算，地震发生概率的估计方法以及坝经历一次地震作用的抗震动力可靠性计算等，还以华北某重力坝为例说明其计算方法，结果表明，用抗震动力可靠度判断重力坝可靠性是适宜的，推荐的两种方法都能较正确地估计地震发生概率。