Volterra积分方程和泛函微分方程的振动性

本文建立了Ｖｏｌｔｅｒａ积分方程和一阶泛函微分方程解的振动准则．     

激发态分子内质子转移分子2－（2′－羟基苯基）间氮杂氧茚“染料”激光特性的实验和理论研究

报道了以Ｎ２激光为泵浦光源，获得激发态分子内质子转移（ＥＳＩＰＴ）分子ＨＢＯ的激光输出现象。其激光转换效率约为１７％，调谐范围为４９５～５４０ｎｍ，最强的输出波长在５１０ｎｍ。以ＨＢＯ的激发态分子内质子转移的光物理和光化学过程为基础，建立了ＨＢＯ产生激光的动态模型，数值模拟了在宽带和窄带情况下激光输出的光谱特性和时间特性，理论计算值与实验观测值很好相符，同时证实了激发态分子内质子转移分子的激光脉冲宽度依赖于激发态分子内质子转移分子的酮式异构体的基态Ｓ′０的寿命     

锁相电子散斑系统

电子散斑干涉计量在变形量检测¹、无损探伤、振动分析^(2,3)等领域具有广泛的应用前景,目前它之所以未能实用化,最重要的原因就是该系统对环境的要求过高,特别是物体的振动和空气的扰动对测量结果影响很大,甚至会导致测量失败,因而国内外学者在不断寻找解决此问题的锁相技术。本文提出了一种简易的切实可行的锁相方法-光学锁相法,消除了物体的振动和空气扰动对电子散斑测量的影响。     

Windows下基于TCP/IP协议的多媒体数据通信

在讨论ＴＣＰ／ＩＰ协议模型、编址方式、ｓｏｃｋｅｔ编程界面的基础上，研究了Ｗｉｎｄｏｗｓ环境下异步接收／发送数据的方法，针对ＡＶＩ多媒体文件格式讨论了音频和视频数据的获取方法和媒体间的同步技术，在Ｎｏｖｅｌｌ网上实现了Ｗｉｎｄｏｗｓ９５环境下基于ＴＣＰ／ＩＰ对等站点之间的实时视频音频通信     

Nd2O3掺杂对SnO2气敏性质的影响

SnO_2是目前应用最广的一种气敏材料。我们曾经报道掺入La_2O_3,CeO_2,Pr_6O_(11),和Nd_2O_3后可使半导体元件的灵敏度提高,尤以对乙醇、乙醚、丙酮为显著。掺Nd_2O_3元件对乙炔的灵敏度也有提高。本文考察了SnO_2粒度和被测气氛的物化性质对掺Nd_2O_3元件灵敏度的影响。SnO_2采用水解SnCl_4法制备,纯度经光谱分析测定合格,试样用标准筛分目。在SnO_2中加1wt%Nd_2O_3(光谱纯)和适量水及甲基纤维素,混磨15分钟。将制成的悬浊液滴在一对铂     

强光场中基态氢原子

根据文献[11]中的微扰方法,利用变分原理计算了光场中基态氢原子的能级.同高频近似给出的非微扰结果相比符合得较好,同高频近似不同,现在的方法能同时并解析地给出能量本征值和波函数 关键词：     

Bi-1212相和Bi-1222相铜氧化合物的合成和超导电性

对名义组份为(Bi_(1-x),M_x)Sr_2YCu_2O_y(x=0.6—0.7)的样品,当M=Cd,Ni和Zn时合成了Bi-1212相材料,实验发现Cd占据Bi位,可以稳定单BiO层,高压氧下退火,在32K出现超导转变,而Zn和Ni进入CuO平面,占据Cu位,破坏了材料的超导电性。用Cd稳定单BiO层还能够合成Bi-1222相化合物,它的固溶范围比Bi-1212大,对这一现像进行了结构上的分析。在不同氧压退火处理下的Bi-1222相样品,电阻随氧压增大而变小,但在4.2K以上未观察到超导转变。 关键词：     

Exponential convergence for one dimensional contact processes

The complete convergence theorem implies that starting from any initial distribution the one dimensional contact process converges to a limit ast. In this paper we give a necessary and sufficient condition on the initial distribution for the convergence to occur with exponential rapidity.This work was discussed while the authors were visiting the Nankai Mathematics Institute in Tianjin.Partially supported by the National Science Foundation, the Army Research Office through the Mathematical Sciences Institute at Cornell University, and a Guggenheim fellowship.Research supported by the National Science Foundation of China.     

Special relativistic gravitational theory

Based on special relativity, we introduce a way to develop a new field theory from (1) the relativistic property of the particle coupling coefficient with the field, and (2) the field due to a static point source. As an example, we discuss a theory of electromagnetic and gravitational fields. The results of this special relativistic gravitational theory for the redshift and the deflection of light are the same as those deduced from general relativity. The results of experiments on the planetary perihelion procession shift and on an additional short-range gravity are more favorable to the special relativistic gravitational theory than to general relativity. We put forward a new idea to test experimentally whether the equivalence principle of general relativity is correct.Plovdiv University Paissii Hilendarskii.Moscow Institute of Railway Transport Engineers.