Implementation of a measurement system for analysing the spectral radiation pattern of light sources with low divergence

光通信研究 Pub Date : 2013-07-10 DOI:10.1109/NOC-OCI.2013.6582898

Nacira Stiebler, P. Pezzei, A. Merdonig, E. Leitgeb

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Abstract

For the verification of Free Space Optics (FSO) systems it is common to determine optical power measured depending on illuminated area at a certain wavelength. In the context of this work a new measurement system was developed, which is able to measure not only the optical power but also the complete spectral distribution of the light beam. FSO is becoming more and more important, because of the high usable bandwidth (leading to high data-rates) in optics compared to radio frequency (RF). The measurement system consists of a mechanical structure, where a collimator is mounted on. This collimator can be moved in two dimensions to enable the measurement of predefined points. It is connected with a spectrum analyzer using an optical fiber. A computer controls the position of the collimator and initiates the spectrum analyzer to record the spectral curves, the maximum peak of power, the -3dB bandwidth and the total power of spectrum. The obtained data covers a measurement area of 0.91 m by 0.77 m which can be surveyed at a high local resolution of 0.7 mm. Collimated beams in the range between 600 and 1750 nm are analysed.

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一种用于分析低发散光源光谱辐射图的测量系统的实现

为了验证自由空间光学(FSO)系统，通常根据特定波长的照射面积来确定测量的光功率。在这项工作的背景下，开发了一种新的测量系统，该系统不仅可以测量光功率，还可以测量光束的全光谱分布。由于与射频(RF)相比，光学器件具有高可用带宽(导致高数据速率)，因此FSO变得越来越重要。测量系统由一个机械结构组成，其中安装了准直器。该准直器可以在两个维度上移动，以实现对预定义点的测量。它通过光纤与频谱分析仪连接。计算机控制准直器的位置，启动频谱分析仪记录频谱曲线、最大功率峰、-3dB带宽和频谱总功率。获得的数据覆盖了0.91 m × 0.77 m的测量区域，可以以0.7 mm的高局部分辨率进行测量。对600 ~ 1750 nm范围内的准直光束进行了分析。

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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光通信研究

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