重新研究了单轴氧化锌(ZnO)的光学功能

IF 1.6 Q3 PHYSICS, CONDENSED MATTER Surface Science Spectra Pub Date : 2023-08-25 DOI:10.1116/6.0002859

G. Jellison

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引用次数: 0

摘要

单轴ZnO的光学函数在200到850之间确定 nm（6.2–1.46 eV）使用三种不同的椭圆测量技术：（1）标准光谱双调制器广义椭圆测量术（2-MGE），（2）透射双调制器广义椭偏测量术，和（3）近正入射双调制器广义椭球测量显微镜（2-MGEM）。2-MGE导致介电函数的值非常精确，误差估计值为1.46至6.2 eV，而透射2-MGE导致在ZnO透明的带边缘以下的双折射和相关误差的更精确的值。2-MGEM还测量衰减（与双折射有关）和其他参数，但在单波长的近法向入射下（577 nm）。2-MGEM被设计为一种扫描仪器，可以在表面上测量这些参数。

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Optical functions of uniaxial zinc oxide (ZnO) revisited

The optical functions of uniaxial ZnO are determined from 200 to 850 nm (6.2–1.46 eV) using three different ellipsometric techniques: (1) standard spectroscopic two-modulator generalized ellipsometry (2-MGE), (2) transmission two-modulator generalized ellipsometry, and (3) near-normal incidence two modulator generalized ellipsometry microscopy (2-MGEM). The 2-MGE results in very accurate values of the dielectric functions and error estimates from 1.46 to 6.2 eV, while the transmission 2-MGE results in more accurate values of the birefringence and associated errors below the band edge where ZnO is transparent. The 2-MGEM also measures the diattenuation (which is related to the birefringence) and other parameters, but at near-normal incidence at a single wavelength (577 nm). The 2-MGEM is designed as a scanning instrument resulting in these parameters being measured over a surface.

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