Discussion on event horizon and quantum ergosphere of dynamic rotating black holes in a tunneling framework

According to the Parikh-Wilczek tunneling framework, the locations of the local horizons of dynamic rotating black holes can be worked out. The calculations show that the quantum ergosphere of the black hole is identical with the tunneling potential barrier set by particle＇s tunneling across the relevant horizon. Then, some discussions on the origin of the Hawking radiation will be shown.

Long-distance super-exchange and quantum magnetic relaxation in a hybrid metal–organic framework

The hybrid metal-organic framework [（CH3）2NH2]Fe（HCOO）3 with a perovskite-like structure exhibits a variety of unusual magnetic behaviors at low temperatures. While the long-distance super-exchange through the Fe-（Y-CH-O- Fe exchange path leads to a canted antiferromagnetic ordering at TN - 19 K, a second transition of magnetic blocking develops at TB- 9 K. The stair-shaped magnetization hysteresis loops below TB resemble the behaviors of resonant quantum tunneling of magnetization in single-molecular quantum magnets. Moreover, the magnetic relaxation also exhibits several features of resonant quantum relaxation, such as the exponential law with a single characteristic relaxation time, and the nonmonotonic dependence of relaxation rate on the applied magnetic field with a much faster relaxation around the resonant fields. The origin of quantum tunneling behaviors in the [（CH3）2NH2]Fe（HCOO）3 metal-organic framework is discussed in terms of magnetic phase separation due to the modification of hydrogen bonding on the long-distance super-exchange interaction.

Classical Correlations vs Quantum Correlations—Similarities, Differences, Opportunities

Classical Correlations were founded in 1900 by Karl Pearson and have since been applied as a statistical tool in virtually all sciences. Quantum correlations go back to Albert Einstein et al. in 1935 and Erwin Schrödinger’s responses shortly after. In this paper, we contrast classical with quantum correlations. We find that classical correlations are weaker than quantum correlations in the CHSH framework. With respect to correlation matrices, the trace of classical correlation matrices is dissimilar to quantum density matrices. However, the off-diagonal terms have equivalent interpretations. We contrast classical dynamic (i.e., time evolving) stochastic correlation with dynamic quantum density matrices and find that the off-diagonal elements, while different in nature, have similar interpretations. So far, due to the laws of quantum physics, no classical correlations are applied to the quantum spectrum. However, conversely, quantum correlations are applied in classical environments such as quantum computing, cryptography, metrology, teleportation, medical imaging, laser technology, the quantum Internet and more.

Discussion on event horizon and quantum ergosphere of dynamic rotating black holes in a tunneling framework

According to the Parikh–Wilczek tunneling framework, the locations of the local horizons of dynamic rotating black holes can be worked out. The calculations show that the quantum ergosphere of the black hole is identical with the tunneling potential barrier set by particle’s tunneling across the relevant horizon. Then, some discussions on the origin of the Hawking radiation will be shown.

基于量子框架(QF)的多总线交换机的设计

汽车多总线技术的飞速发展虽然很大程度上提升了汽车性能,但却不利于汽车内部不同网络系统开放性,系统的扩展及裁剪都比较困难。文章提出基于量子框架来设计多总线交换机。首先介绍了量子框架的基本特点及其运行机制,然后分析了基于CAN/LIN/FlexRay的多总线交换机的工作过程。建立了一个基于量子框架的多总线交换机状态机模型,将整个系统分解为3个相互独立的活动对象,运行在量子框架提供的软件总线上,顺利实现不同网络的数据通信,提高了软件设计效率以及系统的可维护性。

基于权参数优化的并行深度学习光伏功率预测

针对不同应用场景下光伏数据波动模式差异较大时,现有的光伏发电功率预测模型存在精度及适应性不足的问题,提出了一种具有权参数自适应性的并行深度学习光伏发电功率预测框架。该框架包含2种可以并行预测的深度学习算法单元(Attention-Seq2Seq单元、Transformer单元)以及一个权参数自适应优化单元。基于所提出的并行深度学习框架,对光伏发电功率进行预测,并分别与Attention-Seq2Seq、Transformer模型的预测结果进行了对比验证。结果表明:基于权参数优化的并行深度学习光伏功率预测框架弥补了不同数据波动模式下单一算法预测精度和适应性不足的问题,也可以有效解决时间序列预测中的长距离依赖问题,较单一算法预测精度更高,其平均绝对误差和均方根误差在夏季典型日最大降幅分别是41.18%和45.59%,在冬季典型日最大降幅分别是81.13%和82.86%。

基于种群混合迁移策略的并行量子遗传算法

针对量子遗传算法求解大规模优化问题存在收敛速度慢、易于陷入局部最优等问题,改进量子遗传算法。设计一种种群混合迁移机制促进算法的种群多样性,采用仿TriBA种群结构、双精英种群、重生种群、自适应迁移算子、个体竞争排挤算子以及随机失活机制,提高算法的局部勘测能力和全局寻优能力。利用Spark框架实现算法在分布式集群环境下的运算。改进2-opt&R优化算法,通过引入高斯变异提高算法的局部搜索能力,缩小算法的搜索空间。实验结果表明,改进后的算法在全局优化能力、收敛速度、运行速度和求解稳定性等方面均有大幅度提升。

Ni-MOF@InP量子点异质材料及其光电解水性能

针对现有MOF材料的合成方法复杂、形貌调控难、催化驱动力不足等缺点,本工作制备了应用于光电解水的形貌可控且均匀的Ni-MOF@InP量子点异质材料光阳极。一方面,通过电沉积的方法简单高效合成了Ni-MOF结构材料,并且利用恒电流密度沉积方式调控了MOF的均匀性及形貌;另一方面,利用MOF与InP量子点在Si衬底上构建异质结,有效提高了光电极的载流子迁移率与吸光效率;最终实现了Ni-MOF@InP量子点异质材料的光阳极光电流密度提升83.58%。本工作提出了一种合成及调控MOF的新策略,并且利用量子点的特性增强光电化学(PEC)性能,为光电极修饰提供新思路。

荧光纳米探针的合成及其应用研究进展

近年来涌现的荧光纳米探针独特的尺寸及结构赋予其优异的光稳定性、较高的荧光量子产率、可调的激发发射波长等众多优势,引起科研工作者的广泛关注。荧光纳米探针作为一类重要的光响应性纳米材料在小分子及生物大分子检测、细胞成像、活体诊断等领域具有广阔的应用前景,有望成为传统有机荧光染料的理想替代物。该文针对目前研究较多的量子点、金属纳米簇及金属-有机框架及其他纳米荧光探针,介绍了其结构组成、物理化学性质等基本性质,并着重阐述其主要合成方法以及在化学传感、生物医学等领域的应用及研究进展,最后对目前该领域的发展前景做出总结及展望。

金属有机框架材料量子筛效应分离氢同位素

由于氢同位素相似的物理、化学性质,使分离高纯度的氢同位素成为现代分离技术的重大难题之一。实现高纯度氢同位素分离可为未来热核聚变反应堆提供大量的燃料,有望彻底解决能源危机。氛在中子慢化剂、同位素标记、核磁共振氢谱分析、制药等方面也有重要应用价值。但是目前工业化分离氢同位素的方法:低温精馏、Girdler硫化法均存在分离因子低、能耗高的问题,近年来研究人员发现微孔材料的量子筛效应在低温下可被用来分离氢同位素,并对其展开了计算和实验研究。本文介绍了微孔材料分离氢同位素的量子筛(QS)效应,包括动力学量子筛(KQS)效应与化学亲和量子筛(CAQS)效应,综述了部分金属有机框架(MOFs)作为分离氢同位素微孔材料的计算和实验结果。研究证明MOFs材料在低温分离氢同位素上具有较高的选择性。

荧光探针在食品农药残留检测中的应用研究进展

农药的过度使用给自然环境和人类健康造成了重大危害。各类食品中普遍存在农药残留的现象。农药残留成为食品安全的主要问题之一。因此,开发农药残留的快速简便检测方法至关重要。近年来,食品中农药残留检测技术发展迅速。相较于传统检测技术的检不出、检不快、检不准、操作烦琐和设备昂贵的不足,荧光探针因具有高特异性、高灵敏度、快速响应和技术简便的特点,在食品安全检测领域获得了广泛关注。本文介绍了常用农药的种类和荧光探针检测的3种主要机制,综述了食品农药残留检测中常见4类荧光探针的特点、设计策略和应用效果及其优点和局限性,并对其进行了总结和展望,旨在为今后农药残留检测新探针的开发和该领域的未来研究方向提供有价值的参考。

Optimal operation of Internet Data Center with PV and energy storage type of UPS clusters

With the development of green data centers,a large number of Uninterruptible Power Supply(UPS)resources in Internet Data Center(IDC)are becoming idle assets owing to their low utilization rate.The revitalization of these idle UPS resources is an urgent problem that must be addressed.Based on the energy storage type of the UPS(EUPS)and using renewable sources,a solution for IDCs is proposed in this study.Subsequently,an EUPS cluster classification method based on the concept of shared mechanism niche(CSMN)was proposed to effectively solve the EUPS control problem.Accordingly,the classified EUPS aggregation unit was used to determine the optimal operation of the IDC.An IDC cost minimization optimization model was established,and the Quantum Particle Swarm Optimization(QPSO)algorithm was adopted.Finally,the economy and effectiveness of the three-tier optimization framework and model were verified through three case studies.

战略性构建量子信息科学技术政策分析:叙事、特征及启示

国家量子信息科学技术的政策内容决定一个国家量子信息科学技术的发展走向。本文基于LDA主题模型方法和NPF叙事政策框架,分析22个国家或地区的量子信息科学技术政策,发现主导量子信息科学技术发展的6种叙事,包括协同培育量子信息科学技术劳动力、开发量子信息科学技术市场、构建量子信息科学生态系统、重视量子信息科学技术投资、加强量子信息科学技术高端人才储备与留存、推动量子信息科学技术全球合作。政府在量子信息科学技术发展过程中扮演领导者、倡导者、协调者、监管者4个角色。主导量子信息科学技术发展的6种叙事分布的时间和国家存在一定的差异。同时,本文提出启示:高度重视投资规划,开发量子技术市场;协同培育量子人才,推进高校有组织科研;服务重大战略需求,打造科技创新团队;重视人才早期培养,加强量子人才储备。

Investigating the charge transfer mechanism of ZnSe QD/COF S-scheme photocatalyst for H_(2)O_(2) production by using femtosecond transient absorption spectroscopy

Hydrogen peroxide(H_(2)O_(2))has gained widespread attention as a versatile oxidant and a mild disin-fectant.Here,an electrostatic self-assembly method is applied to couple ZnSe quantum dots(QDs)with a flower-like covalent organic framework(COF)to form a step-scheme(S-scheme)photocata-lyst for H_(2)O_(2)production.The as-prepared S-scheme photocatalyst exhibits a broad light absorption range with an edge at 810 nm owing to the synergistic effect between the ZnSe QDs and COF.The S-scheme charge-carrier transfer mechanism is validated by performing Fermi level calculations and in-situ X-ray photoelectron and femtosecond transient absorption spectroscopies.Photolumi-nescence,time-resolved photoluminescence,photocurrent response,electrochemical impedance spectroscopy,and electron paramagnetic resonance results show that the S-scheme heterojunction not only promotes charge carrier separation but also boosts the redox ability,resulting in enhanced photocatalytic performance.Remarkably,a 10%-ZnSe QD/COF has excellent photocatalytic H_(2)O_(2)-production activity,and the optimal S-scheme composite with ethanol as the hole scavenger yields a H_(2)O_(2)-production rate of 1895 mol g^(-1)h^(-1).This study presents an example of a high-performance organic/inorganic S-scheme photocatalyst for H_(2)O_(2)production.

量子动力学框架在Lennard-Jones团簇结构优化中的应用

Lennad-Jones团簇结构优化是在物理化学和材料科学领域经常遇到的优化问题,由于原子之间的相互作用具有高度的复杂性,因此常用来检验算法性能。量子动力学是一种具有完整数学框架且非常有效的理论模型,量子动力学框架(QDF)已经被证明在复杂问题中具有很强的竞争力。在不引入任何先验知识的基础下,使用QDF在Lennard-Jones团簇结构优化问题中进行求解,探讨QDF在具有高度复杂的解空间的团簇问题中的性能。将QDF与差分进化算法、骨架烟花算法进行对比,比较最低能量、能量分布和时间精度等。实验结果表明,在Lennard-Jones团簇结构优化问题中,可接受时间内QDF取得优于其他两种算法的最低能量。QDF是一种具有潜力的解决框架。

量子智能与互联意识:意识边界的重塑和伦理框架的构建

量子计算和量子纠缠技术的突破重塑了信息处理方式,也挑战了传统的意识观念和社会治理结构。随着智能系统的深入渗透,自我与集体意识、自由意志与技术控制之间的伦理问题愈加突出。跨学科对话对构建鼓励创新与伦理治理相平衡的框架至关重要,它有助于推动量子智能与人类核心价值观的和谐共存。量子智能不仅为优化社会资源配置和提升全球福祉提供了技术方案,还为重新定义人类身份和集体意识提供了哲学上的契机。在技术与伦理的融合过程中,确保其可持续发展并且惠及全人类至关重要。展望未来,人类必须保持开放的心态和协作精神,通过公平、责任和创新的新社会契约,推动量子智能成为塑造美好未来的积极力量。

Maxwell Equations and Magnetic Monopoles

The manuscript introduces an “ab initio” quantum model to deduce the Maxwell equations. After general considerations and laying out the model’s theoretical framework, these equations can be derived alongside a broad variety of other results. Specifically, a corollary of the present model proposes a possible mechanism underlying the formation of magnetic monopoles and allows estimating their formation energy in order of magnitude.

Eu^(3+)/MAPbBr_(3)@Pb-BTC双荧光发射材料检测地下水中Pb^(2+)性能探究

金属有机框架材料(MOF)具有发光位点丰富、发射波长范围广、孔道和结构可调以及易于功能化修饰等特点,采用水热合成法制备一种新型MOF材料(Eu^(3+)/MAPbBr_(3)@Pb-BTC)。将MOF与Eu稀土元素及甲胺铅溴(MAPbBr_(3))钙钛矿量子点结合,构筑双发射传感体系,通过扫描电子显微镜(SEM)、X-射线粉末衍射(XRD)等手段表征其结构特点,结果表明Eu及MAPbBr_(3)可以稳定修饰于Pb-BTC表面,且有机骨架表面形貌发生明显变化。以荧光光谱分析法为基础,进一步使用该材料对地下水中Pb^(2+)浓度进行测试,通过荧光光谱分析表明,材料具备有双荧光发射体系,且在20~80 mmol/L的Pb^(2+)下进行离子响应测试,结果表明,I_(MA)/I_(Eu)的荧光强度比率与Pb^(2+)浓度呈二次函数相关关系,I_(MA)/I_(Eu)=1.29-0.02 C+0.0004 C^(2),R^(2)=0.99。经过浓度循环测试后证明该材料的稳定性良好,制备的MOF适用于作为地下水中Pb^(2+)的传感材料。

基于碳量子点/铕基金属有机框架荧光探针定量检测牛奶中的四环素类抗生素

目的建立基于碳量子点(carbon quantum dots,CQDs)和铕基金属有机框架(Eu-based mental-organic framework,Eu-MOF)比率荧光传感器快速检测牛奶中四环素类抗生素(tetracycline antibiotics,TCs)残留的方法。方法通过TCs对CQDs的内滤效应和对Eu-MOF的天线效应,使CQDs的荧光淬灭而Eu-MOF荧光增强,形成探针对TCs的比率荧光信号,使用探针两发射峰强度比率关系进行TCs残留定量检测。结果所构建探针对四环素、金霉素、土霉素、强力霉素分别在2~160、2~100、2~80、2~220μmol/L的线性范围内响应灵敏,检出限分别为0.007、0.030、0.020、0.040μmol/L。在牛奶样品中TCs残留的加标回收实验的回收率为90.60%~107.60%。结论该策略具有高效、方便、低成本等优点,不仅扩展了金属有机框架在食品分析中的应用,而且为食品中TCs的检测提供了新的思路。

基于量子框架的重卡AMT系统逻辑建模研究

针对应用传统有限状态机方法建立的行为模型存在可读性差、系统功能扩展、裁剪困难等缺点,提出将量子框架(QF)应用于重卡机械式自动变速箱(AMT)开发中。首先介绍了量子框架的基本特点及其运行机制,然后重点分析了AMT系统的工作过程,将整个系统分解为四个相互独立的活动对象,分别建立了基于量子框架(QF)的状态机模型,最后进行了实车试验。结果表明,在重卡机械式自动变速箱(AMT)开发中应用量子框架技术,显著地提高了设计效率、代码可读性以及系统的可维护性。