稠密k-子图问题的双非负松弛

稠密k-子图问题是组合优化里面一类经典的优化问题,其在通常情况下是非凸且NP-难的。本文给出了求解该问题的一个新凸松弛方法-双非负松弛方法,并建立了问题的相应双非负松弛模型,而且证明了其在一定的条件下等价于一个新的半定松弛模型。最后,我们使用一些随机例子对这些模型进行了数值测试,测试的结果表明双非负松弛的计算效果要优于等价的半定松弛。     

二维铁电材料ABP2X6内在极高的负泊松比

Recently, ferroelectric materials have attracted considerable research attention. In particular, two dimensional (2D) ferroelectric materials have been considered as most crucial for next-generation circuit designs because of their application as novel electric memory devices. However, a 2D ferroelectric material is very rare. The ferroelectric materials with the form ABP₂X₆ (A = Ag, Cu; B = Bi, In; X = S, Se) are of interest because of their ferroelectric property maintained in their ultrathin structures. Within the ABP₂X₆ monolayer, the P―P bonds form the pillars that hold the top and bottom X planes, while the off-center A―B atoms between the X layers induce a spontaneous ferroelectric polarization. If the two off-center A―B sites are equally aligned, this would lead to the appearance of the paraelectric state. Such intriguing structures must impart novel mechanical properties to the materials. Until now, there has been no report on the mechanical properties of monolayer ABP₂X₆. Based on first-principles calculations, we studied the structural, electronic, mechanical as well as the electromechanical coupling properties of monolayer ABP₂X₆ (A = Ag, Cu; B = Bi, In; X = S, Se). We found that they are all semiconductors with wide bandgaps of 2.73, 2.17, 3.00, and 2.31 eV for CuInP₂Se₆, CuBiP₂Se₆, AgBiP₂S₆, and AgBiP₂Se₆, respectively, which are calculated based on the Heyd-Scuseria-Ernzerhof (HSE) exchange correlation functional model. The conduction band minimum is mainly from p orbitals of X and B atoms, whereas the valence band maximum is due to the hybridization of the p orbital of X atoms and the d orbital of A atoms. Moreover, there are three short and three long A/B―X bonds due to the A―B off-center displacement. Together with the d-p orbital hybridization, the main reason for the distorted ferroelectric structure in ABP₂X₆ monolayers is the Jahn-Teller effect. ABP₂X₆ monolayers are predicted to be a new class of auxetic materials with an out-of-plane negative Poisson's ratio, i.e., the values of the negative Poisson's ratio are in the order AgBiP₂S₆ (−0.805) < AgBiP₂Se₆ (−0.778) < CuBiP₂Se₆ (−0.670) < CuInP₂S₆ (−0.060). This is mainly due to the tensile strain applied in the x/y direction enlarging the angle between P―P bonds and top layer X atoms, thereby enhancing the bucking height of monolayer ABP₂X₆. Moreover, external strain has a significant impact on the A―B off-center displacement, rendering an out-of-plane piezoelectric polarization. The values of e₁₃ for CuInP₂S₆, CuBiP₂Se₆, AgBiP₂S₆, AgBiP₂Se₆ monolayers are calculated to be −3.95 × 10⁻¹², −5.68 × 10⁻¹², −3.94 × 10⁻¹², −2.71 × 10⁻¹² C∙m⁻¹, respectively, which are comparable to the only experimentally confirmed 2D out-of-plane piezoelectric Janus system (piezoelectric coefficient = −3.8 × 10⁻¹² C∙m⁻¹). This unusual auxetic behavior, ferroelectric polarization, and the electromechanical coupling in monolayer ABP₂X₆ could potentially lead to enormous technologically important applications in nanoelectronics, nanomechanics, and piezoelectrics.     

浅海负跃层条件下的warping变换宽带无源测距方法

夏季浅海波导中常常存在强烈的负跃层,研究warping变换无源测距在这种水文条件下的使用方法具有重要的应用价值。对于上发上收、上发下收和跃层强度较小时下发下收的情况,海面海底反射类简正波对声场起主要作用,可以对接收信号的自相关函数进行时域warping变换,利用特征频率匹配的方法进行无源测距。而对于跃层强度较大时下发下收的情况,水体折射-海底反射类简正波对声场起主要贡献,可以对接收信号的自相关函数进行频域β-warping变换进行无源测距。并且能在事先获得粗略的水体声速剖面参数的情况下,通过设置一个已知距离的引导声源,那么即使估计得到的波导不变量存在一定误差,实际测距结果也可以与真实距离符合得较好。利用warping变换对一次夏季浅海实验接收到的目标发出的宽带信号进行无源测距,估计距离与真实距离符合较好,相对误差在20%以内。      

双光子J-C模型实现非定域双原子系统量子特性的远程控制

考虑一对纠缠的二能级原子之一与单模腔场发生双光子共振相互作用,经腔QED演化后,对腔场进行光子探测,通过操纵相互作用的时间和光场参数以及初态两纠缠原子的纠缠度,可远程调控腔外原子表现出更强的非经典效应,如原子的偶极压缩;同时使用相同的方法对远程控制的信道-原子间的纠缠演化也进行了控制,从而更有效地实现对原子量子特性的控制.并且发现原子的压缩和原子间的纠缠存在一定的对应关系.     

电场极性对池沸腾换热影响的实验研究

利用EHD技术对工质R123进行了非均匀高压电场下电场极性对池沸腾换热影响的实验研究.结果表明,无论加正、负电压,强化系数均随热流密度的增加而下降,最终达到稳定值;高热流密度下,正电压有较弱的强化效果,负电压对沸腾换热具有削弱作用;正电压下的强化换热效果优于负电压下的强化换热效果.     

15—20mA负氢离子源的设计与加工

离子源是强流质子回旋加速器的核心设备之一, 它的性能指标对最终束流大小和质量都有重大影响. 文章介绍了一种运用于强流质子回旋加速器上的多峰场负氢离子源的设计与加工情况, 该离子源主要是通过深入研究高密度等离子体产生技术、长寿命大直流灯丝电子发射技术、磁约束技术、虚拟过虑技术、残留气体与电子剥离的控制技术, 以及离子引出技术等, 在中国原子能科学研究院原有10mA离子源基础上建立负氢离子源, 实验研究低能、强流束的实验匹配与调试技术, 将平均引出束流提高到15—20mA.     

固相萃取净化-气相色谱-负化学源质谱法测定近岸海洋环境中的甲氧基多溴联苯醚

甲氧基多溴联苯醚（methoxypolybrominated diphenyl ethers, MeO-PBDEs）广泛存在于生物体和海洋环境。以象山海域的生物体和沉积物为样本,采用固相萃取净化-气相色谱-负化学源质谱法,检测了6种MeO-PBDEs,结果显示,当目标分析物浓度为0.1~20.0 μg?L^-1时,线性关系良好（R²>0.999）,检出限为0.13~0.22 μg?kg^-1,定量限为0.42~0.72 μg?kg^-1,实际样品的平均回收率为71.2%~116.2%。MeO-PBDEs的分布状况调查结果显示,藻类样品中仅检出6-MeO-BDE-47,且浓度较低,其他生物体中检出3种MeO-PBDEs,检出率为31.3%,浓度为0.21~2.72 μg?kg^-1。沉积物中无MeO-PBDEs被检出。     

星型负泊松比多孔材料力学性能及应用研究

论文推导了星型负泊松比多孔材料的泊松比$弹性模量及相对密度的解析表达式"并通过有限元分 析验证了解析表达式的准确性:星型负泊松比多孔材料具有优异的吸能与隔振性能"论文设计了一种船用星型多 孔材料隔振基座:建立了不同层数$壁厚$泊松比的星型多孔材料隔振基座对应的数值有限元模型"探究了星型多 孔材料薄壁结构泊松比$层数以及壁厚对多孔材料隔振基座强度与减振性能的影响:研究表明"减少多孔材料薄壁 结构的层数和壁厚"选用胞元泊松比?%:$的星型多孔材料"可以获得低频隔振效果好$强度高的多孔材料隔振 基。     

基于MOS-NDR负阻器件的D触发器设计

负阻器件由于在电流 电压特性曲线中表现出独特的负微分电阻特性,从而大大增加了单个器件所能实现的逻辑功能.如果将其用于数字逻辑电路设计,尤其是触发器的设计,可有效减少器件的数目.通过分析CMOS工艺负阻器件MOS-NDR及单双稳态转换逻辑单元MOBILE的工作特性,设计了一个时钟上升沿触发的D触发器.采用TSMC 0.18 μm工艺对所设计的电路进行HSPICE仿真,仿真结果表明所设计的电路具有正确的逻辑功能.与基于MOS-NDR负阻器件的同类触发器相比,新设计的D触发器具有更稳健的输出和较强的抗干扰能力