带补偿机制的垃圾焚烧厂选址问题研究

研究了带补偿机制的垃圾焚烧厂选址问题,在综合考虑选址成本、补偿标准等因素的前提下,建立了以垃圾焚烧厂对附近居民造成的负面影响极小化和垃圾焚烧厂的总运行费用极小化为目标的垃圾焚烧厂选址问题的双目标规划模型,通过一个具体算例验证了模型的有效性,得到了符合实际的结果.模型可推广应用于其它邻避型设施选址问题.     

奖惩机制下考虑销售努力的闭环供应链协调

以一个制造商和一个零售商组成的闭环供应链为研究对象,考虑在政府的奖惩机制下需求同时受销售价格和销售努力影响的供应链协调问题.首先,在集中决策下,研究了供应链系统的最优决策,并给出了均衡解存在的条件和奖惩力度所满足的范围;在分散决策下,重点分析了奖惩力度以及销售努力对供应链双方决策的影响.其次,使用特许经营契约能够使供应链达到协调.最后,给出了数值算例和仿真分析.     

量子点CdSe／ZnS的浓度对其荧光的影响研究

影响量子点荧光特性除了量子点尺寸因素外,其溶液浓度也会对其荧光特性起很重要的作用。但到目前,还未见到有关量子点 CdSe／ZnS 在溶液中浓度对其荧光影响的详细报道。为了掌握影响量子点CdSe／ZnS荧光特性的因素及其物理机制,利用紫外-可见吸收光谱仪和荧光光谱仪测量了尺寸为4 nm的量子点CdSe／ZnS在氯仿中不同浓度下的吸收光谱和荧光光谱,并侧重研究了量子点CdSe／ZnS的浓度对其发光特性的影响并分析了其物理机制。结果表明量子点对光谱的吸收随其浓度的增加而增大,但其发光却具有一个最佳浓度2μmol·L－1。当量子点的浓度＞2μmol·L－1时,量子点的荧光强度随着量子点浓度的增加而降低,而当量子点的浓度＜2μmol·L－1时,量子点的发光强度则随其浓度的降低而降低。其原因主要有两个：（1）荧光猝灭效应;（2）荧光发射与光吸收的竞争效应。当量子点的浓度＞2μmol·L－1时,由于量子点之间相距太近（仅为94 nm）而引起了荧光猝灭效应,且其荧光猝灭效应随量子点间距的减小而增大,且因为吸收过大,导致受激的量子点并未增加,因此,其荧光随浓度的增加而降低。而当量子点的浓度＜2μmol·L－1时,因为量子点之间的距离足够大,不再引起荧光猝灭效应,其荧光强度取决于单位体积内的量子点的个数,单位体积内量子点的个数越多,其发光强度越强。因此其发光强度随量子点溶液的浓度降低而降低。     

A2 BO4型类钙钛矿材料中非化学计量氧的分子模拟

A_2BO_4型类钙钛矿材料因其独特的物化性能,可应用于催化、固体氧化物燃料电池等领域。本文简要介绍了A_2BO_4型类钙钛矿材料的结构和非化学计量氧(δ)的研究方法,对材料的δ分子模拟研究进展进行了综述,重点介绍了材料非化学计量氧迁移、输运机制的分子模拟研究现状,包括未掺杂纯相、A位掺杂和B位掺杂A_2BO_4型类钙钛矿三类材料,同时也对该领域的发展趋势进行了展望。     

大气颗粒物中棕色碳的化学组成、来源和生成机制

大气颗粒物中棕色碳(BrC)在近紫外波段具有强吸光性,并因其显著的气候效应被广泛关注。BrC组成、来源、演变和光学性质的不确定性是造成气候模型估算气溶胶辐射强迫不确定性的重要因素。本文综述了大气颗粒物中BrC的化学组成、来源和生成机制,聚焦分子水平上BrC组成、二次生成机制和吸光间的关联。大气颗粒物中BrC的主要类别包括有机溶剂(甲醇)提取的碳质组分、水溶性有机碳及类腐殖质; 分子水平上,硝基芳香烃和含氮杂环有机物是BrC的主要发色团。BrC的来源包括生物质等不完全燃烧一次排放和挥发性有机物氧化二次生成; 二次生成途径主要包括人为源芳香烃氧化生成硝基芳香烃等含氮组分、羰基化合物与铵/胺反应生成含氮杂环组分或低聚物。前体物和反应条件影响二次生成BrC的组成和吸光性质; BrC在大气传输过程中还会发生“光漂白”现象。在分子水平上识别和阐明BrC的发色团、二次生成机制及其演变过程是未来该领域的重点研究方向。     

可拉伸超韧水凝胶的制备和应用

综述了可拉伸超韧水凝胶的设计原理及其在组织工程和柔性电子器件领域的应用. 通过将网络结构层次、 化学结构、 增韧机制与宏观力学性能相结合, 重点讨论了单网络水凝胶、 双网络水凝胶、 纳米复合水凝胶及其它水凝胶等可拉伸超韧水凝胶的研究进展, 并总结和展望了新思路和新方向.     

A new kind of nonlinear fractional-order chaotic phenomenon in coupled systems： coexistence of anti-phase and complete synchronization

In this paper, we have found a kind of interesting nonlinear phenomenon hybrid synchronization in linearly coupled fractional-order chaotic systems. This new synchronization mechanism, i.e., part of state variables are anti- phase synchronized and part completely synchronized, can be achieved using a single linear controller with only one drive variable. Based on the stability theory of the fractional-order system, we investigated the possible existence of this new synchronization mechanism. Moreover, a helpful theorem, serving as a determinant for the gain of the controller, is also presented. Solutions of coupled systems are obtained numerically by an improved Adams Bashforth-Moulton algorithm. To support our theoretical analysis, simulation results are given.     

Superconductivity and spin fluctuations

In the conventional superconductors, the Cooper pairs are mediated by phonons, which is a process where only the correlations between the phonons and the charge properties of the electrons are needed. However, superconductivity can also be derived from other types of elementary excitations. The spin fluctuations are arguably the most promising candidate that can mediate such unconventional superconductivity. In some of the important systems such as cuprates, Fe-based superconductors and heavy-fermion superconductors, spin fluctuations play a key role in the mechanism of their superconductivity although there are still many debates. In this paper, we will give a brief review on the correlation between the spin fluctuations and superconductivity.     

Studies on the mechanisms of powerful terahertz radiations from laser plasmas

A survey on the mechanisms of powerful terahertz (THz) radiation from laser plasmas is presented.Firstly,an analytical model is described,showing that a transverse net current formed in a plasma can be converted into THz radiations at the plasma oscillation frequency.This theory is applied to explain THz generation in a gas driven by two-color laser pulses.It is also applied to THz generation in a tenuous plasma driven by a chirped laser pulse,a few-cycle laser pulse,a DC/AC bias electric field.These are well verified by particle-in-cell simulations,demonstrating that THz radiations produced in these approaches are nearly single-cycles and linear polarized.In the chirped laser scheme and the few-cycle laser scheme,THz radiations with the peak field strength of tens of MV/cm and the peak power of gigawatt can be achieved with the incident laser intensity less than 10 17 W/cm 2.