| Solid state radiation emitters | |
| KROEMER HERBERT | |
| 1967-03-14 | |
| 著作权人 | VARIAN ASSOCIATES |
| 专利号 | US3309553 |
| 国家 | 美国 |
| 文献子类 | 授权发明 |
| 其他题名 | Solid state radiation emitters |
| 英文摘要 | A radiation emitter operable at ambient temperature comprises a heterojunction between a base region of low energy gap semi-conductor material and a more heavily doped carrier injection region of higher energy gap material. The efficiency of radiative recombination of injected carrier is improved if the lattice constants of the two materials match to within 1%. A typical device, Fig. 2, is made by dipping a lightly doped germanium wafer in a solution of gallium arsenide in gallium at 600 DEG C. and withdrawing it when a 5-20 m layer of the arsenide has grown on it. The solution may contain tin to make the layer more heavily N type. Subsequently one face of the water is exposed to vapour from an indium zinc alloy to convert the layer 12 to P type leaving the other 14 of N type. In another method a pair of germanium wafers are placed back to back in gallium arsenide solution with the edges coated with graphite to avoid wetting to form N layers on the exposed faces. The wafers are then placed N layers together in a zinc doped gallium arsenide solution to form P layers on the other faces. Devices made either way are provided with contacts on the P and N layers. These may be vapour deposited layers of gold or stannic chloride or layers of silver paint. The contacts may both be annular on the wafer faces as in Fig. 1, or one an annulus and the other an overall layer with a reflective layer of aluminium below it. If the wafer is thicker annular contacts may be disposed on its cylindrical surface. In one device of rectangular form, Fig. 4 (not shown), a set of parallel opaque strip contacts is provided on one face and in another, Fig. 6 (not shown), the N injector layer has parallel grooves in it with electrode strips on the intervening ridges which may be connected together in sets. Other devices comprise N-type wafers with either a single P-type injector layer or a pair connected in parallel, Figs. 7 and 9 respectively (not shown). A wide range of elemental AIII, BV and AII, BVI compound semi-conductors are stated to be suitable for the heterojunctions. By using mixed crystals exact matching of lattice constants is possible. The following specific heterojunctions are described: HgSe-ZnTe; HgSe-GaSb; GaAs-ZnSe; APZnS; CdSe-ZnTe; InAs-GaSb; HgSe - ASb; InSb and CdTe or a mixed crystal of CdTe and InAs or ZnTe; AP with GaP or a mixed crystal of Ge and Si; and Ge with a mixed crystal of GaAs and GaSb. The character of the radiation and the form and direction of the resulting radiation beam are determined by the materials used and the geometric configuration of the bodies and reflective layers respectively. |
| 公开日期 | 1967-03-14 |
| 申请日期 | 1963-08-16 |
| 状态 | 失效 |
| 内容类型 | 专利 |
| 源URL | [http://ir.opt.ac.cn/handle/181661/47413]  |
| 专题 | 半导体激光器专利数据库 |
| 作者单位 | VARIAN ASSOCIATES |
| 推荐引用方式 GB/T 7714 | KROEMER HERBERT. Solid state radiation emitters. US3309553. 1967-03-14. |
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