通过光发射对石墨烯的反射率进行修正

C Pub Date : 2024-02-15 DOI:10.3390/c10010018
Ken-ichi Sasaki, Kenichi Hitachi, Masahiro Kamada, Takamoto Yokosawa, T. Ochi, Tomohiro Matsui
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引用次数: 0

摘要

单层石墨烯吸收入射可见光的 2.3%。这种 "小 "吸收率一直被用来强调石墨烯的视觉透明度,但实际上这意味着多层石墨烯吸收了相当一部分入射光,从而导致不可忽略的荧光。在本文中,我们用转移矩阵法计算了由数十到数百层石墨烯组成的多层石墨烯的光发射特性,并通过实验证实了该方法的有效性。我们定量解释了在二氧化硅/硅衬底上测量到的多层石墨烯的对比度,并发现了对可见光反射率的相当大的修正,这不能归类为非相干光发射。新的成分来自于每个石墨烯层的吸收所引起的相干发射。因此,多层石墨烯可作为各种波长的部分相干光源,并可应用于表面发射激光。
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Introducing Corrections to the Reflectance of Graphene by Light Emission
Monolayer graphene absorbs 2.3 percent of the incident visible light. This “small” absorption has been used to emphasize the visual transparency of graphene, but it in fact means that multilayer graphene absorbs a sizable fraction of incident light, which causes non-negligible fluorescence. In this paper, we formulate the light emission properties of multilayer graphene composed of tens to hundreds of layers using a transfer matrix method and confirm the method’s validity experimentally. We quantitatively explain the measured contrasts of multilayer graphene on SiO2/Si substrates and find sizable corrections, which cannot be classified as incoherent light emissions, to the reflectance of visible light. The new component originates from coherent emission caused by absorption at each graphene layer. Multilayer graphene thus functions as a partial coherent light source of various wavelengths, and it may have surface-emitting laser applications.
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