The Fermi Level

B. Cantor
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Abstract

The Fermi level is the maximum energy of the electrons in a material. Effectively there is a Fermi equation: EF = E max. This chapter examines the discrete electron energy levels in individual atoms as a consequence of the Pauli exclusion principle, the corresponding energy bands in a material composed of many atoms or molecules, and the way in which conductor, insulator and semiconductor materials depend on the position of the Fermi level relative to the energy bands. It explains: the concepts of electron mobility, mean free path and conductivity; the dielectric effect and capacitance; p-type, n-type, intrinsic and extrinsic semiconductors; and the behaviour of some simple microelectronic devices. Enrico Fermi was the son of a minor railway official in Rome. He had a meteoric scientific career in Italy, developing Fermi-Dirac statistics for the energies of fundamental fermion particles (such as electrons and protons), discovering the neutrino, and explaining the behaviour of different materials under bombardment from fast and slow neutrons. After initially joining Mussolini’s Fascist Party, he became unhappy at the level of anti-Semitism (his wife was Jewish) and left suddenly for America, immediately after receiving the Nobel Prize in Sweden. At Columbia and Chicago Universities and at Los Alamos National Labs, he played a key scientific role in developing controlled fission in an atomic pile, leading to the development of the atomic bomb towards the end of the Second World War, and the nuclear energy industry after the war.
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费米能级
费米能级是物质中电子的最大能量。实际上有一个费米方程:EF = E max。本章考察了由于泡利不相容原理而导致的单个原子中的离散电子能级,由许多原子或分子组成的材料中相应的能带,以及导体、绝缘体和半导体材料依赖于相对于能带的费米能级位置的方式。解释了电子迁移率、平均自由程和电导率的概念;介电效应与电容;p型、n型、本征和外源半导体;以及一些简单微电子器件的行为。恩里科·费米是罗马一个小铁路官员的儿子。他在意大利从事流星科学研究,发展了费米-狄拉克统计法来计算基本费米粒子(如电子和质子)的能量,发现了中微子,并解释了不同物质在快中子和慢中子轰击下的行为。在最初加入墨索里尼的法西斯党后,他对反犹太主义的程度感到不满(他的妻子是犹太人),并在瑞典获得诺贝尔奖后立即突然前往美国。在哥伦比亚大学和芝加哥大学以及洛斯阿拉莫斯国家实验室,他在开发原子堆受控裂变方面发挥了关键的科学作用,导致了第二次世界大战结束时原子弹的发展,以及战后核能工业的发展。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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