Progress on photonic crystals

IEEE Nuclear Science Symposuim & Medical Imaging Conference Pub Date : 2010-10-01 DOI:10.1109/NSSMIC.2010.5874119

P. Lecoq, E. Auffray, S. Gundacker, H. Hillemanns, P. Jarron, A. Knapitsch, J. Leclercq, X. Letartre, T. Meyer, K. Pauwels, F. Powolny, C. Seassal

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引用次数: 11

Abstract

The renewal of interest for Time of Flight Positron Emission Tomography (TOF PET) has highlighted the need for increasing the light output of scintillating crystals and in particular for improving the light extraction from materials with a high index of refraction. One possible solution to overcome the problem of total internal reflection and light losses resulting from multiple bouncing within the crystal is to improve the light extraction efficiency at the crystal/photodetector interface by means of photonic crystals, i.e. media with a periodic modulation of the dielectric constant at the wavelength scale. After a short reminder of the underlying principles this contribution proposes to present the very encouraging results we have recently obtained on LYSO pixels and the perspectives on other crystals such as BGO, LuYAP and LuAG. These results confirm the impressive predictions from our previously published Monte Carlo simulations. A detailed description of the sample preparation procedure is given as well as the methodology and different characterization steps to control the process and evaluate the results. Pictures and quantitative results are shown, which confirm that significant light output gain factors (50% and more) can be obtained with this approach. Finally an interesting feature of photonic crystals to collimate light in some privileged directions is highlighted.

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光子晶体的研究进展

对飞行时间正电子发射断层扫描(TOF PET)的重新关注强调了增加闪烁晶体光输出的必要性，特别是提高从高折射率材料中提取光的必要性。克服全内反射和光损失问题的一个可能的解决方案是通过光子晶体，即在波长尺度上具有介电常数周期性调制的介质，提高晶体/光电探测器界面的光提取效率。在简要介绍了基本原理之后，本文提出了我们最近在LYSO像素上获得的非常令人鼓舞的结果，以及对其他晶体(如BGO, LuYAP和LuAG)的看法。这些结果证实了我们之前发表的蒙特卡罗模拟的令人印象深刻的预测。样品制备程序的详细描述，以及方法学和不同的表征步骤，以控制过程和评价结果。图片和定量结果显示，这证实了显著的光输出增益因子(50%以上)可以用这种方法获得。最后强调了光子晶体在某些特殊方向上准直光的一个有趣的特性。

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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IEEE Nuclear Science Symposuim & Medical Imaging Conference

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