Ferrofluids with high dynamic ranges of optical transmission

Applications of Optics and Photonics Pub Date : 2017-08-22 DOI:10.1117/12.2271794

Á. Sanz-Felipe, J. Martin

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引用次数: 5

Abstract

We present two ferrofluids in which high variations of optical transmission can be induced by application of moderate magnetic fields (obviously a desirable feature of functional substances aimed at photonic applications). The samples tested are representative of two different behaviors observed in ferrofluids. Exposed to a magnetic field, the size of the aggregates are much smaller in sample 1 than in sample 2, and once the magnetic field is turned off, aggregates disappear in sample 1 while they stay in sample 2. The transmission of samples 2 mm thick, as a function of magnetic field (up to 72 G), are compared. For ferrofluid 1, its transmission increases up to 40% or decreases up to 75% by applying a magnetic field perpendicular or parallel to the incident light respectively. For ferrofluid 2, the presence of a magnetic field parallel to the incident light can multiply its transmission by a factor up to 160. In both samples, the transmission dependence on the applied magnetic field shows an acceptable linearity, which is a very interesting feature face to eventual sensing applications. Besides, it is shown how aggregates favor a drastic temporal response after DC magnetic field switch on and off.

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具有高动态光传输范围的铁磁流体

我们提出了两种铁磁流体，其中光传输的高变化可以通过施加适度的磁场(显然是针对光子应用的功能物质的理想特征)引起。测试的样品代表了在铁磁流体中观察到的两种不同行为。暴露在磁场下，样品1中的聚集体的大小比样品2中的小得多，一旦磁场关闭，聚集体在样品1中消失，而留在样品2中。比较了2mm厚样品的透射率随磁场(最大72g)的变化情况。对于铁磁流体1，分别施加垂直于入射光或平行于入射光的磁场，其透射率可增加40%或减少75%。对于铁磁流体2，平行于入射光的磁场的存在可以将其透射率增加到160倍。在这两个样品中，对外加磁场的传输依赖显示出可接受的线性，这对于最终的传感应用来说是一个非常有趣的特征。此外，还显示了聚集体在直流磁场开关打开和关闭后如何倾向于剧烈的时间响应。

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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Applications of Optics and Photonics

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