离子注入制备铋掺杂氧化硅薄膜的宽带近红外发射

COMMAD 2012 Pub Date : 2012-12-01 DOI:10.1109/COMMAD.2012.6472341

M. Halsall, I. Crowe, R. Southern, P. Yang, R. Gwilliam

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引用次数: 0

摘要

采用离子注入法制备了一系列掺铋氧化硅层。所有样品都表现出强烈的室温近红外光致发光，范围在1.0μm-1.3μm之间，我们认为这是氧化物基体中与Bi相关的中心，与之前报道的用其他方法制备的Bi掺杂氧化物相似。研究了这些发光中心的活化和敏化与退火温度和共掺杂硅(Si)和铝(Al)的关系。与以类似方法制备的掺铒薄膜比较，发现掺铋薄膜的发射强度相当。更宽的双相关发光使该系统非常有希望用于片上，宽带激光器和放大器，特别是用于电信。

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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Broadband near-infrared emission from bismuth doped silicon oxide films prepared by ion-implantation

A series of Bismuth (Bi) doped silicon oxide layers were prepared by ion-implantation. All the samples exhibit strong room temperature near-infrared photoluminescence in the range 1.0μm-1.3μm which we assign to Bi related centres in the oxide matrix, similar to that reported previously for Bi doped oxides fabricated by alternative methods. The activation and sensitization of these luminescent centres was studied as a function of anneal temperature and co-doping with silicon (Si) and aluminium (Al). Comparision with Erbium doped films prepared in a similar way reveals comparable emission intensity from the Bi doped films. The even wider Bi-related luminescence makes this system very promising for use in on-chip, broadband lasers and amplifiers, particularly for use in telecommunications.

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COMMAD 2012

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