“网络暴力”何时休？

几天前，在上海某网站论坛发生了一起“电话门”事件。一则名为“打击一切变态”的帖子，声称其美女同事频频遭受一男子的电话骚扰，并公布了骚扰者的手机号码。该帖发布后，不少网友响应，一时间，“把该号码印在黑广告上”、“把这个号码公布到其他网站”等主意层出不穷，更有人提议拔打该号码进行“反骚扰”，支持“打爆该号码”的网友越来越多。     

军用微机系统对外发射的几种抑制措施

军用微机系统对外发射的几种抑制措施盛海主题词微机，发射，措施我国的电磁兼容性（简称ＥＭＣ）与国外相比起步较晚，因此军用微机系统在ＥＭＣ方面存在的问翘也较多，主要反应在传导发射（ＣＥ）及辐射发射（ＲＥ）出现超标现象，与国军标的要求相差较大。本文主要以Ｃ...     

DVD视盘机的电磁骚扰抑制

本文讨论对DVD视盘机的电磁骚扰的抑制，使其电磁骚扰水平符合有关标准的要求，不成为新的电磁环境中的污染源。     

建议将电磁兼容列入我国学科目录

电磁兼容是一门综合学科，它不建立自己的系统，而是在其它系统中发挥作用。它的研究领域包括源的特性、传播与建模、抗干扰能力、测量以及系统内与系统间的电磁兼容性，本领域在国际与国内近十余年来发展都很快。作者认为在我国制约它发展的最重要问题是在学科目录及有关代码中无位置，并提出三点建议。     

14C-寡糖在西瓜幼苗植株体内吸收传导和分布

应用同位素示踪技术研究了14C-寡糖在西瓜幼苗植株体内的吸收、传导和分布行为.自显影结果显示,寡糖通过处理叶部或根部后能够被西瓜幼苗植株快速吸收,在叶片中的传导表现为从叶缘向叶片中心分布的趋势.将叶部处理8h和根部处理24h后,14C-寡糖即可以传导和分布到西瓜幼苗的整个植株体内,证明14C-寡糖在西瓜幼苗植株体内具有较强的扩散和向基或向顶传导特征.结果表明,处理叶部4～120h时,根系、茎与未被直接处理的叶片等其它部位的放射性比活度分别由0.18×105和23.08×105Bq/kg变化为0.32×105和3.02×105Bq/kg,总体上表现出向基传导和分布的态势.处理根部4～120h时,西瓜幼苗植株根系、茎部、子叶和真叶中放射性比活度分别由22.23×105,2.23×105,8.33×105和12.78×105Bq/kg变化为431.11×105,42.23×105,65.57×105和78.89×105Bq/kg,表现出14C-寡糖在西瓜幼苗植株体内向顶传导作用和在地上部的积累态势很强.     

美国开发出食品保质检测新装置

不久前，美国开发出一种全新的食品保质检测装置，该装置由传感器与传感器与扫描器构成。据悉，传感器的主要材料是铅，包装食品时，将它置于食品匣内。检测时，扫描器对食品发射的无线电波信号会使食品产生振动，同时发出乐谱波。乐谱波先反射到食品盒壁上，后传导给传感器，通过标准数据库标定振动程度、振动传导时间及乐谱波的传导速度，瞬间即可确定所检测食品发生变质的时间。     

BaCe0.8Ho0.2O3-a陶瓷的性质与应用

Ceramic BaCe0.8Ho0.2O3-α with orthorhombic perovskite structure was prepared by conventional solid state reaction, and its conductivity and ionic transport number were measured by ac impedance spectroscopy and gas concentration cell methods in the temperature range of 600-1000 ℃ in wet hydrogen and wet air, respectively. Using the ceramics as solid electrolyte and porous platinum as electrodes, the hydrogen-air fuel cell was constructed, and the cell performance at temperature from 600-1000 ℃ was examined. The results indicate that the specimen was a pure protonic conductor with the protonic transport number of 1 at temperature from 600-900 ℃ in wet hydrogen, a mixed conductor of proton and electron with the protonic transport number of 0.99 at 1000 ℃. The electronic conduction could be neglected in this case, thus the total conductivity in wet hydrogen was approximately regarded as protonic conductivity. In wet air, the specimen was a mixed conductor of proton, oxide ion and electron hole. The protonic transport numbers were 0.01-0.09, and the oxide-ionic transport numbers were 0.27-0.32. The oxide ionic conductivity was increased with the increase of temperature, but the protonic conductivity displayed a maximum at 900 ℃, due to the combined increase in mobility and depletion of the carriers. The fuel cell could work stably. At 1000 ℃, the maximum short-circuit current density and power output density were 346 mA/cm^2 and 80 mW/cm^2, respectively.