Acousto-optic scanning multi-photon lithography with high printing rate

As a manufacturing method that is focused on end-users,3D printing has gained a lot of attention in recent years due to its unique advantages in fabricating complex three-dimensional structures.Various new micro-nano 3D printing methods have been developed to meet the demand for high-precision and high-yield manufacturing1-9.Among them,multi-photon-photon lithography(MPL) is a promising 3D nanofabrication technology due to its capability of true 3D digital processing and nanoscale processing resolution beyond the diffraction limit.It has been widely used to fabricate microoptics10,11,photonic crystals12,microfluidics13,meta-surfaces14,and mechanical metamaterials15.

基于支持向量机的低空飞行目标声识别

目标识别是战场低空飞行目标声预警技术的核心内容之一。为了满足声预警系统的要求,建立的识别器必须高效、具有较好的推广能力。采用了一种新的分类器一支持向量机对目标进行了分类识别。首先简要描述了直升机、巡航导弹的声信号特性,说明了支持向量机的原理。以自回归模型参数为特征向量对3种直升机、一种巡航导弹共4类目标进行了识别,并同一种前向反馈神经网络进行了识别比较。支持向量机和该神经网络得到的识别率分别为88.1%和84.1%,结果表明此方法的有效性。最后分析了两种分类器识别错误的原因,给出了提高识别率的建议。

听神经瘤CT与MRI诊断比较

目的：①回顾性分析经ＣＴ和ＭＲＩ检查、手术及病理证实的听神经瘤表现；②比较二者的敏感性和定性诊断效果；③探讨微听神经瘤的检出方法．方法：１９（男９，女１０）例听神经瘤，ＣＴ平扫后１５例增强扫描．ＭＲＩ检查用ＳＥ序列，平扫及增强扫描．结果：ＣＴ正确诊断１５／１９例，漏诊４／１９例．ＭＲＩ检出率为１９／１９例，并可检出５ｍｍ的微听神经瘤．结论：ＣＴ漏诊率为２１％，分析其原因是没有采用ＣＴ薄层及增强扫描，忽略了内听道骨窗观察．ＭＲＩ薄层及增强技术是检出听神经瘤的最佳方法，且可观察三叉神经脑池段有无受侵．

基于正棱锥阵的目标定位系统

本文讨论一种集被动定向、主动测向、测距为一体的水声信号处理系统，接收基阵采用基元数最少的正三棱锥阵，利用数字信号处理技术和ＴＭＳ３２０Ｃ２５芯片完成目标的定位功能。

采场回采过程的声学特性研究

采用声发射与声波对云南大姚铜矿盘区开采过程进行监测分析，用声彼仪对支撑顶板的点柱进行监测；用ＹＳＳ声发射仪对采场四周的顶底柱进行声发射监测。分析结果表明：随着采场回采，空区体积不断增加，地音的总事件及能率不断增加，而点柱所测的声波速度反而降低，说明这两种监测手段对采场稳定性监测是行之有效的，且比较吻合。

Noninvasive treatment efficacy monitoring and dose control for high-intensity focused ultrasound therapy using relative electrical impedance variation

As an effective therapeutic modality, high-intensity focused ultrasound（HIFU） can destroy tumour tissues by thermocoagulation with less metastasis, but it is still limited by inaccurate non-invasive temperature monitoring and efficacy evaluation. A model of electrical impedance measurement during HIFU therapy was established using the temperatureimpedance relationship. Based on the simulations of acoustic pressure, temperature, and electrical conductivity, the impedance of the phantom was calculated and experimentally demonstrated for different values of acoustic power values and treatment time. We proved that the relative impedance variation（RIV） increases linearly with the increasing treatment time at a fixed acoustic power, and the relative impedance variation rate shows a linear relationship with the acoustic power.The RIV and treatment time required for HIFU treatment efficacy are inversely proportional to the acoustic power and the square of acoustic power, respectively. The favourable results suggest that RIV can be used as an efficient indicator for noninvasive temperature monitoring and efficacy evaluation and may provide new strategy for accurate dose control of HIFU therapy.

一种基于内潮动力特征的浅海声速剖面构建新方法

为了降低反演参数空间的维数,常利用正交经验函数(EOF)来构建声速剖面.然而,EOF方法的样本依赖性使之难以用于缺乏现场实测数据的海域.本文提出一种全新的利用历史数据而不依靠现场实时数据即可获得的声速剖面展开基函数.基于水质子流体静力方程和物态方程,推导了在缺乏实时测量的情况下从历史数据获得水动力模式基函数(HMB)的办法.利用WOA13季节平均温盐数据获得代表内潮动力特征的HMB进行分析.较之EOF, HMB及其对应的投影系数与海洋动力特征直接相关并具有明确的物理含义.基于东中国海实验获得的CTD (conductance-temperature-depth)及宽带爆炸声源声信号数据,利用声速剖面重构以及匹配场声层析对HMB进行了分析,并与EOF进行对比研究.结果表明:HMB可以以较好的精度构建浅海声速剖面.在对现场实时测量依赖更小的情况下,基于HMB方法的声场预报及声层析结果与EOF方法一样好.HMB的获取更简单且直接关联海水的物理特性,该方法可在实时测量样本不足的海域有效替代EOF进行海洋动力现象的声学监测.

单层石墨烯中声学极化子自陷的相关问题

研究了单层石墨烯中的电子-声学声子相互作用,并导出了单层石墨烯中声学极化子系统哈密顿量。利用极化子基态能量随电子-声学声子耦合常数的变化关系,研究了声学极化子在单层石墨烯的自陷转变。结果表明,在单层石墨烯中,靠近Dirac点的电子不能形成常规的极化子,进而在该点上也不能实现声学极化子的自陷转变。在Dirac点外,声学极化子的自陷情况与理想二维系统的理论描述相一致。

调制与解调技术、调制解调器

Y2002-63327-1441 0225099蜂窝正文电话调制解调器:GSM 阿络中支持正文电话功能性的解决=The cellular text telephone modem-thesolution for supporting text telephone functionality inGSM networks[会,英]/Drbecker,M.& Hellwig,K.//The 2001 IEEE International Conference on Acous-tics,Speech,and Signal Processing Vol.ⅢofⅥ.—1441～1444(HE)