Fresnel Equations Derived Using a Non-Local Hidden-Variable Particle Theory

Problem: The Fresnel equations describe the proportions of reflected and transmitted light from a surface, and are conventionally derived from wave theory continuum mechanics. Particle-based derivations of the Fresnel equations appear not to exist. Approach: The objective of this work was to derive the basic optical laws from first principles from a particle basis. The particle model used was the Cordus theory, a type of non-local hidden-variable (NLHV) theory that predicts specific substructures to the photon and other particles. Findings: The theory explains the origin of the orthogonal electrostatic and magnetic fields, and re-derives the refraction and reflection laws including Snell’s law and critical angle, and the Fresnel equations for s and p-polarisation. These formulations are identical to those produced by electromagnetic wave theory. Contribution: The work provides a comprehensive derivation and physical explanation of the basic optical laws, which appears not to have previously been shown from a particle basis. Implications: The primary implications are for suggesting routes for the theoretical advancement of fundamental physics. The Cordus NLHV particle theory explains optical phenomena, yet it also explains other physical phenomena including some otherwise only accessible through quantum mechanics (such as the electron spin g-factor) and general relativity (including the Lorentz and relativistic Doppler). It also provides solutions for phenomena of unknown causation, such as asymmetrical baryogenesis, unification of the interactions, and reasons for nuclide stability/instability. Consequently, the implication is that NLHV theories have the potential to represent a deeper physics that may underpin and unify quantum mechanics, general relativity, and wave theory.

Quantum Mechanics: Harmonic Wave-Packets, Localized by Resonant Response in Dispersion Dynamics

From a combination of Maxwell’s electromagnetism with Planck’s law and the de Broglie hypothesis, we arrive at quantized photonic wave groups whose constant phase velocity is equal to the speed of light c = ω/k and to their group velocity dω/dk. When we include special relativity expressed in simplest units, we find that, for particulate matter, the square of rest mass , i.e., angular frequency squared minus wave vector squared. This equation separates into a conservative part and a uniform responsive part. A wave function is derived in manifold rank 4, and from it are derived uncertainties and internal motion. The function solves four anomalies in quantum physics: the point particle with prescribed uncertainties;spooky action at a distance;time dependence that is consistent with the uncertainties;and resonant reduction of the wave packet by localization during measurement. A comparison between contradictory mathematical and physical theories leads to similar empirical conclusions because probability amplitudes express hidden variables. The comparison supplies orthodox postulates that are compared to physical principles that formalize the difference. The method is verified by dual harmonics found in quantized quasi-Bloch waves, where the quantum is physical;not axiomatic.

基于隐马尔科夫模型的滑动窗口投票策略的QRS波群形态识别

QRS波群形态识别是心电异常检测的关键环节,是疾病诊断的主要依据。目前的QRS波群形态识别方法存在识别出的形态较少、对参数敏感等问题。为此,提出一种基于隐马尔科夫的滑动窗口投票策略SWVHMM自动识别QRS波群形态。首先,将每个QRS波群划分成4个波段,对各波段设置滑动窗口提取样本;其次,将各波段波形作为状态,窗口样本聚类后的类簇中心作为观测,构建状态转移受限的隐马尔科夫模型;最后,对待预测波群的各波段窗口组合结果进行投票,识别最可能的波群形态。在专业医生标注的真实数据集上,与现存方法比较,SWVHMM F1值分别提高了5.97%,5.49%和2.27%。这表明SWVHMM不仅能识别多种QRS波群形态,而且准确度更高。

基于注意力机制的毫米波图像隐匿目标自主识别方法

在人体安检中,毫米波成像是一种对人体安全的检测方法。目前,使用平面毫米波扫描人体图像中存在被检测物体较小、边缘模糊等问题,导致传统的目标检测方法实现高准确率的检测变得困难。本文提出应用注意力机制及图像增强方法,提高目标检测方法对人体毫米波图像隐匿物体检测的精确度和召回率。研究结果表明,注意力机制与图像增强方法可提高毫米波图像目标检测的准确率和召回率。

架空输电线路隐患在线监测方案研究

随着行波法故障测距稳定性以及成熟性的不断提升,故障时刻行波信号中包含的其他信息正逐步被挖掘。从行波法故障测距角度出发,利用行波故障测距原理,结合宽频带传感器以及隐患预警系统算法判定输电线路中是否存在隐患放电情况,开发了一套架空输电线路隐患监测系统。该系统基本可实现架空输电线路的隐患预警,从而辅助输电线路现场运维人员进行故障排查,减小输电线路因隐患发展成故障跳闸。

A Realistic Interpretation of Quantum Wavefunctions as Temperature Dependent Vacuum Polarization Waves

We discuss in this paper a novel interpretation of Born rule as an approximated thermodynamic law which emerges from the interaction of a quantum system with a non-stationary thermal bath associated to vacuum fluctuations induced by external environment radiation. In particular we assume that vacuum polarization is a real non relativistic phenomena caused by hidden vacuum charge oscillations which diffuses heat energy in a dispersive and dissipative dielectric medium with a temperature dependent speed of propagation. We propose a model which couples vacuum wavefunctions to vacuum charge fluctuations and we deduce a temperature dependent running fine structure constant function proportional, at first approximation, to the squared of the effective electron charge and compatible with known experimental data. We interpret the vacuum symmetry breaking energy fluctuations induced in scattering experiments of particle physics and in laser assisted nuclear reactions as thermal quasi-monochromatic beams produced by the decay of hidden non equilibrium massive photons propagating with a variable light speed. We suggest, exploiting an old analogy between plasmons and pseudo Goldstone bosons, to interpret heat diffusion of this non relativistic polarized vacuum as a real De Broglie electromagnetic scalar wave associated to the radiation emitted by the hidden massive photons with acceleration proportional to vacuum Unruh like temperature. We predict a temperature dependent deviation from Coulomb law and a generalized dispersive law of these hidden unstable photons that could be revealed as not stationary coloured noise in experiments on anomalous heat diffusions associated to the decay of unstable accelerated pairs produced in nuclear physics experiments. We discuss then how our proposal of a temperature dependent non relativistic vacuum polarization might be applied to deduce a dynamic generalization of Born rule based on a realistic interpretation of quantum wavefunctions as averaged electromagnetic waves of hidden massive photons. Finally we suggest to test our time asymmetric model looking for very fast oscillating polarization thermal waves emitted during the not instantaneous wavefunction collapse and revealed as not stationary bulk heating effects in experiments on accelerated conductors and nanoconductors.

岩质边坡微震监测方案优化设计及隐伏危险区域辨识

地压监测是矿山安全管理的关键环节,也是矿产资源开发过程中有效的监测手段。根据陕西省四方金矿的矿山地质条件和地压活动规律,为提高资源回收率,有效治理矿山地表环形边坡,解决安全绿色采矿的关键问题,针对矿山生产特点,结合传感器布设的基本要求,分析了不同布设方案的理想定位误差,并从经济性角度分析与设计了满足矿山监测要求的地压系统监测方案。为进一步辨识矿山边坡体的薄弱异常区域,确定边坡的区域稳定性情况,采用波速场成像技术获取了边坡体监测剖面低速危险区域和高速危险区域的成像结果,进而实现了边坡体内部隐伏空洞异常区域的超前辨识及监测效果分析。结果表明:在理想化条件下,某一监测点设置为不同的标高时,坡体定位误差差距不明显,结合监测震源的矿山边坡区域相对波速场成像结果可知,基于当前的台网布置方案,可满足对于矿山边坡体监测剖面内部危险区域的辨识需求。研究成果对于减少矿山灾害事故发生、提升矿山安全生产稳定性具有重要意义。

胶东调水沉沙池围堤安全评价及加固方案研究

根据胶东调水渠首沉沙池围堤现状,通过综合物探隐患探测,结合收集的资料对工程渗流和稳定性进行安全复核,并对沉沙池围堤进行综合安全评价;对比分析了现浇混凝土板护坡、预制混凝土连锁块护坡、悬臂式混凝土挡土墙防护、波浪桩防护和波浪桩组合混凝连锁块等五种临水坡加固措施的优缺点和造价,最终确定了适宜的加固方案,并对波浪桩布置型式和波浪桩长度进行了计算,研究结果可为堤防加固工程实施奠定理论基础。

槽波地震勘探技术在煤层构造探查中的应用

以辽源矿18203综放工作面为工程背景,通过工作面现场地震槽波勘探,对综放工作面隐伏地质构造赋存规律进行探测研究。研究结果表明:厚煤层回采工作面采前施工地震槽波勘探,能够进一步查明工作面内部隐伏构造赋存情况,对构造分布及延展方位初步判别精确,异常体附近煤层厚度变化,同时有效规划回采推进计划为工作面回采提供技术参考,使队组能够超前预防。研究成果对厚煤层综放工作面内部隐伏构造分布、煤厚变化及后期合理开采具有一定的指导意义。

地震映像时频分析技术在岩溶探测中的应用

依托某高速铁路隐伏岩溶探测工作,面对在建工程强干扰环境影响,采用地震映像法,通过魏格纳-威尔分布算法将地震映像时间域信号转化至频率域,利用岩溶充填物与完整基岩的波阻抗和频率差异进行准确定位,通过与钻孔资料对比,表明其勘探效果良好。

灰岩地层隐伏洞体的瑞雷波勘查试验

为了研究灰岩地层隐伏洞体瑞雷波频散曲线的特征,采用交错网格有限差分数值模拟方法计算了2种填充状态的隐伏溶洞模型,对得到的波形记录进行频散分析,并结合灰岩地层含隧洞工程实例验证其勘探的应用效果。结果表明:瑞雷波法对隐伏洞体有较高的分辨率。在灰岩地层隐伏空溶洞模型中,排列在空溶洞上方的瑞雷波频散曲线存在明显的跳动现象;而在灰岩地层隐伏充填溶洞模型中,排列在充填溶洞附近的瑞雷波频散曲线震荡较大,且在溶洞对应的深度范围频散信息缺失。该研究可为同类地质条件的勘查提供理论参考。

地震纵波横波联合勘探方法寻找近地表第四系内隐伏断裂方法研究

这里主要针对城市活断层浅层地震探测存在的一些技术问题,结合北京平原区活动断裂监测专项地质调查项目,在近地表第四系未固结沉积层中,发育许多具有相当规模的隐伏断裂,虽用纵波反射地震方法能够探测到它们的存在,但不能追踪到超浅层。结合以往的纵波资料,采用小道间距纵、横波联合勘探方法,获得了目标场地较清晰地震图像资料,并用钻井验证方法的可靠性。探讨了极浅层乐夫波等干扰波引起的假异常,需要在数据处理和解释的过程中,采取相应的技术措施消除影响,为今后类似地区活断层地震调查提供技术参考和科学依据。

地震散射波模拟成像方法在铜陵某矿区的应用

针对深部隐伏的金属矿床,以铜陵某矿区为例,应用散射波正演模拟技术,对金属矿地震数据野外采集中涉及的偏移距、覆盖次数、道间距等参数进行了不同炮记录的模拟对比,辅助指导非均匀地质体金属矿地震勘探野外数据采集的观测系统设计;针对该地区实际采集的地震数据,应用基于等效偏移距的共散射点成像方法,对金属矿地震数据进行了处理,通过与常规反射波法处理结果对比,散射成像效果较好,说明散射波技术在金属矿地震勘探中应用有一定的可行性和适用性.

探地雷达检测桥梁隐蔽病害方法研究

常规桥梁检测方法无法检测梁板内部裂缝及空心板顶板厚度等空心板桥梁的常见隐蔽病害。本文采用电磁波散射叠加原理,分析了垂直裂缝和倾斜裂缝的电磁波响应特征;研究了商用屏蔽型探地雷达天线普遍采用的平面蝶形偶极子天线的极化特性,平面蝶形偶极子天线激发一个电场主要极化方向与天线长轴方向平行的线性极化波,利用平面蝶形偶极子天线的极化特性使电磁波能量按指定方向传播,压制浅部钢筋等强干扰,增强探地雷达检测深部目标的能力,从而查明空心板内空洞的数量、位置及深度变化情况等。试验检测结果表明,探地雷达能快速、准确的检测桥梁裂缝及空心板顶板厚度。检测结果可以为旧桥维修加固提供更全面的技术数据。

粗纱常见突发性疵点的波谱分析

探讨粗纱常见突发性疵点的波谱分析过程。以罗拉和胶辊缺陷产生的机械波,传动部件故障产生的机械波,粗纱牵伸波,粗纱隐波,假捻效应波、捻度波、卷绕波以及不规律性竹节等诸多实例分析粗纱突发性疵点在波谱图上的反映。实践证明:粗纱产生突发性疵点的原因较多,应从设备状态、纺纱配件、工艺参数设置、原料性能、工序、车间管理等多方面逐一排查,确保产品质量。认为:通过波谱图分析常见突发性疵点有助于产品质量管理的提升。

东海区域灾害性海浪长期预测方法研究

海浪预报具有复杂性、非线性和高维性等特点,而BP人工神经网络是处理非线性关系,进行科学预测行之有效的方法。本文中采用BP人工神经网络技术,以1985—2005年影响东海区的热带气旋、温带气旋和冷空气等相关要素为样本,建立东海区域灾害性海浪BP神经网络长期预测数值模型。通过模拟预测效果检验:该模型预测准确率超过85%,平均误差约为8%,满足实际预测要求。

面波法在堤坝隐患勘查中的应用

本文列举了采用面波法勘探探测堤坝管涵、土洞、白蚁巢穴、土体疏松带、滑坡体等隐患及评价坝体质量的成功实例,并对堤坝隐患的工程物探勘查提出建议.

飞机隐藏腐蚀检测的进展

分析了飞机腐蚀的严重性和紧迫性,指出了腐蚀检测的重要性。总结对比了飞机隐藏腐蚀的各种检测方法,得出了热波成像技术成为飞机隐藏腐蚀检测发展新方向的结论,并介绍了基于热波成像技术的飞机隐藏腐蚀检测的国内外研究的进展情况。

湿陷性黄土暗穴的综合地球物理探测试验研究

文章是地球物理探测湿陷性黄土暗穴的系列试验成果,大量模拟计算和野外试验表明,电磁波和弹性波的两大类地球物理探测技术,是探测黄土暗穴的主流技术。而高密度电法和瞬变电磁法,则是成本低、效率高、准确率大的有效普查方法;多道瞬态面波技术、浅层地震勘探的组合技术,是实现黄土暗穴精细探测切实可行的实用技术;探地雷达在特定条件下才具备较高的精度。

图象在声音和图象中的隐藏

从计算机图形学的角度对图象在声音和图象中的隐藏问题进村了讨论。首先将图象隐藏在声音中，而声音的这种改变对人的听觉来讲是不可察觉的。其次，将图象隐藏在图象中，这种包含有其它囹象的图象信息是人的视觉无法分辨的。最后将格雷码引入到抗干扰实验中，给出了实验结果。此外，还提供了一些图象隐藏的新概念和新方法。