基于弯曲硅晶体热塑性变形的Bragg反射型x射线偏振计的研制

Y. Ueda, Tomoki Uchino, Daiki Ishi, Y. Ezoe, K. Ishikawa, M. Numazawa, Aoto Fukushima, Sae Sakuda, A. Inagaki, H. Morishita, Luna Sekiguchi, Takatoshi Murakawa, Yukine Tsuji, K. Mitsuda, K. Morishita, K. Nakajima
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引用次数: 0

摘要

我们正在开发一种新型的布拉格反射x射线偏振计,利用硅晶圆的热塑性变形。布拉格反射偏振计具有原理简单、调制因子大的优点,但存在探测能带窄、入射光束难以聚焦等缺点。我们通过在高温下弯曲硅片来克服这些缺点。弯曲布拉格反射偏振计具有宽的能量带,可以利用不同的角度在晶圆上聚焦。我们首次用这种方法成功地测量了x射线偏振,使用的是由4英寸硅(100)晶圆制成的光学样品。
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Development of Bragg reflection-type x-ray polarimeter based on a bent silicon crystal using hot plastic deformation
We are developing a novel Bragg reflection x-ray polarimeter using hot plastic deformation of silicon wafers. A Bragg reflection polarimeter has the advantage of simple principle and large modulation factor but suffers from the disadvantage of a narrow detectable energy band and difficulty to focus an incident beam. We overcome these disadvantages by bending a silicon wafer at high temperature. The bent Bragg reflection polarimeter have a wide energy band using different angles on the wafer and enable focusing. We have succeeded in measuring x-ray polarization with this method for the first time using a sample optic made from a 4-inch silicon (100) wafer.
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