Semiconductor - traducción al Inglés
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Semiconductor - traducción al Inglés

MATERIAL THAT HAS ELECTRICAL CONDUCTIVITY INTERMEDIATE TO THAT OF A CONDUCTOR AND AN INSULATOR
Semiconductors; Semi-Conductors; Semi-conductor; Semiconductor physics; Semiconducting material; List of semiconductor devices; Semiconductor material; Semiconducting; Semi conductor; Semiconductive; Electronic Materials; Semiconduction; Semicon; Electronic materials; Semi-conducting; Semiconductivity; Semi conductors; Physics of semiconductors; Electronic substance
  • [[John Bardeen]], [[William Shockley]] and [[Walter Brattain]] developed the bipolar [[point-contact transistor]] in 1947.
  • [[Karl Ferdinand Braun]] developed the [[crystal detector]], the first [[semiconductor device]], in 1874.
  • ingot]] of [[monocrystalline silicon]]
  • [[Silicon]] crystals are the most common semiconducting materials used in [[microelectronics]] and [[photovoltaics]].

Semiconductor         
Semiconductor
semiconductor         
n. semiconductor, solid material with electrical conductivity that is between that of a conductor and an insulator at normal temperatures
semiconductor         
= semiconductor.
Ex: Whilst valves work by passing electric currents through a vacuum between electrodes, transistors are built from materials called semiconductors.

Definición

semiconductor
se llama así a las sustancias aislantes, como el germanio y el siliciosilicio , que se transforman en conductores por la adición de determinadas impurezas. Los semiconductores tienen enorme importancia en electrónica.

Wikipedia

Semiconductor

A semiconductor is a material which has an electrical conductivity value falling between that of a conductor, such as copper, and an insulator, such as glass. Its resistivity falls as its temperature rises; metals behave in the opposite way. Its conducting properties may be altered in useful ways by introducing impurities ("doping") into the crystal structure. When two differently doped regions exist in the same crystal, a semiconductor junction is created. The behavior of charge carriers, which include electrons, ions, and electron holes, at these junctions is the basis of diodes, transistors, and most modern electronics. Some examples of semiconductors are silicon, germanium, gallium arsenide, and elements near the so-called "metalloid staircase" on the periodic table. After silicon, gallium arsenide is the second-most common semiconductor and is used in laser diodes, solar cells, microwave-frequency integrated circuits, and others. Silicon is a critical element for fabricating most electronic circuits.

Semiconductor devices can display a range of different useful properties, such as passing current more easily in one direction than the other, showing variable resistance, and having sensitivity to light or heat. Because the electrical properties of a semiconductor material can be modified by doping and by the application of electrical fields or light, devices made from semiconductors can be used for amplification, switching, and energy conversion.

The conductivity of silicon is increased by adding a small amount (of the order of 1 in 108) of pentavalent (antimony, phosphorus, or arsenic) or trivalent (boron, gallium, indium) atoms. This process is known as doping, and the resulting semiconductors are known as doped or extrinsic semiconductors. Apart from doping, the conductivity of a semiconductor can be improved by increasing its temperature. This is contrary to the behavior of a metal, in which conductivity decreases with an increase in temperature.

The modern understanding of the properties of a semiconductor relies on quantum physics to explain the movement of charge carriers in a crystal lattice. Doping greatly increases the number of charge carriers within the crystal. When a doped semiconductor contains free holes, it is called "p-type", and when it contains free electrons, it is known as "n-type". The semiconductor materials used in electronic devices are doped under precise conditions to control the concentration and regions of p- and n-type dopants. A single semiconductor device crystal can have many p- and n-type regions; the p–n junctions between these regions are responsible for the useful electronic behavior. Using a hot-point probe, one can determine quickly whether a semiconductor sample is p- or n-type.

A few of the properties of semiconductor materials were observed throughout the mid-19th and first decades of the 20th century. The first practical application of semiconductors in electronics was the 1904 development of the cat's-whisker detector, a primitive semiconductor diode used in early radio receivers. Developments in quantum physics led in turn to the invention of the transistor in 1947 and the integrated circuit in 1958.

Ejemplos de uso de Semiconductor
1. By Ora Coren Tags: SemIndia, india Israeli chipmaker Tower Semiconductor is negotiating an alliance with the Indian semiconductor company SemIndia.
2. "The Philadelphia Semiconductor Index will be testing new lows today." The semiconductor index ended Thursday at 435.25, up 0.4 percent.
3. "The semiconductor industry has a very, very long food chain," said Indian Semiconductor Association Chairman Raj Khare.
4. Carl Zeiss makes semiconductor manufacturing gear.
5. Seven people, including Samsung Semiconductor President Y.H.