固体电子学

一个用于固体电子学实验研究的计算机实时控制测量系统

A Computer Real Time Controlled System for Experimental Studies in Solid State Electronics

第七届《固体电子学研究与进展》编辑委员会

The 7th Editorial Committee of 《 Research & progressof sse 》 the present status of solid state electronics

传感器与固体电子学中非线性函数多项式拟合的规范化

Normalizing the Polynomial-Match for a Non-Linear Function in Sensors and Solid Electronics

我们给出了固体电子学中的两个应用实例。

One example used in solid electronics are presented .

固体电子学中的等离子体技术

The plasma Chemistry and the Solid State Electronics

无机氧化物薄膜在现代微电子学、固体电子学和光学工程中有广泛的应用。

Inorganic oxide films are widely used in modern microelectronics , solid-state electronics , optical engineering .

近年来，铁电材料及其应用研究已成为凝聚态物理、固体电子学领域的热门课题。

Recently , ferroelectrics materials have been investigated intensively in the condensed physics and solid-state electronics fields .

同传统的固体电子学相比，有机分子材料制作分子器件具有众多的优势，比如成本低，可大面积制作等，故而分子器件在开关整流器、光电器件等诸多领域开始发挥重要作用。

Comparing to the traditional solid electronics , organic electronics has many advantages than traditional materials , for example , low cost , large-area fabrication and et al .

其目标是用单分子、超分子和分子簇来代替硅基半导体晶体管等固体电子学元件组装逻辑电路，乃至组装成完整的计算机。

Its goal is to use single molecules , super molecules and molecular clusters instead of solid electronic components such as Si-based semiconductor transistors to assemble logical circuits and even computers .

随着系统集成度的不断提高，基于动磁式直线压缩机的大冷量自由活塞斯特林制冷机在空间观测、侦察、固体电子学及低温生物方面有着日益广泛的应用前景。

With the rapid technical improvement of aero scope , solid electronics and cryobiology , free-piston , high cooling capacity Stirling refrigerators based on the moving magnet linear compressor own bright and extensive application prospect .

课程包罗：电力体系，90分；讯号治理，88分；体系控制，92分；电力能源体系，92分；固体电子学，88分；通讯，94分。

Curriculum included : Electric power systems , 90 ; Signal processing , 88 ; Systems and control , 92 ; Electric energy systems , 92 ; Solid-state electronics , 88 ; Communications , 94 .

有机固体与分子电子学

Organic Solids and Molecular Eletronics

这些成就无疑地将推动包括固体物理、固体化学、固体电子学、材料科学、地质矿物、晶体学等学科在内的固体科学的发展。

These achievements no doubt will enhance the progress of all branches of solid state sciences , such as solid state physics , solid state chemistry , solid state electronics , material scie - nces , geology and mineralogy , crystallography , etc.