中国科学院机构知识库网格
Chinese Academy of Sciences Institutional Repositories Grid
Anordnung zur Zusammenführung und Formung der Strahlung mehrerer Laserdiodenzeilen

文献类型:专利

作者VOELCKEL HERMANN 07768 KAHLA DE; CHALEEV MICHAIL MICHAILOVIC ST. PETERSBURG RU; HOLLEMANN GUENTER 07749 JENA DE; NOVIKOV GEORGIJ EGOROVIC ST. PETERSBURG RU; MICHAILOV ALEKSEJ VADIMOVIC ST. PETERSBURG RU; USTYUGOV VLADIMIR IVANOVIC ST. PETERSBURG RU; MAK ARTHUR AFANASEVIC ST. PETERSBURG RU; ORLOV OLEG ALEKSANDROVIC ST. PETERSBURG RU
发表日期1997-02-27
专利号DE19537265C1
著作权人JENOPTIK AG 07743 JENA DE
国家德国
文献子类授权发明
其他题名Anordnung zur Zusammenführung und Formung der Strahlung mehrerer Laserdiodenzeilen
英文摘要The arrangement shapes the beams of several lines of laser diodes and leads them together. The arrangement has at least two lines of laser diodes whose beams in the emission plane have a cross section whose longitudinal axis is a multiple of the transverse axis. A collimator unit (1) is arranged after each line of diodes in the beam direction. A combining unit (2) combines the collimated beams of the individual diode lines by adjacent arrangement in the direction of the transverse axis. A recombining unit (3) separates the combined beam in the direction of the longitudinal axis into individual partial beams and reunites them by adjacent arrangement in the direction of the transverse axis. The arrangement may also have a converging lens arranged after the recombining unit (3). This lens couples the beam into a following optical element e.g. an optical fibre. The collimator unit (1) may be made up of an individual cylindrical lens which collimates the beams in the direction of the cylindrical axis.
公开日期1997-02-27
申请日期1995-10-06
状态失效
源URL[http://ir.opt.ac.cn/handle/181661/33511]  
专题半导体激光器专利数据库
作者单位JENOPTIK AG 07743 JENA DE
推荐引用方式
GB/T 7714
VOELCKEL HERMANN 07768 KAHLA DE,CHALEEV MICHAIL MICHAILOVIC ST. PETERSBURG RU,HOLLEMANN GUENTER 07749 JENA DE,et al. Anordnung zur Zusammenführung und Formung der Strahlung mehrerer Laserdiodenzeilen. DE19537265C1. 1997-02-27.

入库方式: OAI收割

来源:西安光学精密机械研究所

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