Investigating the Angular Dependence of Absolute Specular Reflection
Applications | 2022 | Agilent TechnologiesInstrumentation
Understanding angularly resolved reflection is critical for optimizing optical coatings in applications ranging from photovoltaics to sensors. Conventional single angle measurements often miss angular variations that can impact performance in end use.
This study demonstrates automated collection of absolute specular reflection spectra over a wide angle range using the Agilent Cary 7000 universal measurement spectrophotometer UMS. The goal is to reveal the angular dependence of a coated silicon wafer and visualize data in two and three dimensions.
Reflection spectra were recorded on a 200 mm silicon wafer coated with an optical film. Measurements spanned 250 to 2500 nm at 1 nm UV Vis and 4 nm NIR intervals, with angles of incidence from 6 to 86 degrees in 1 degree steps. Two baselines for s and p polarization were acquired once and applied to all spectra, enabling unattended data collection.
Spectral minima in the infrared shifted from about 1900 nm near normal incidence to 1400 nm at grazing angles near 70 degrees, with minima depth approaching zero. Contour and 3D plots highlighted strong angular dependence of reflectance, underscoring the need for multi angle characterization.
Automated multi angle reflectometry provides fast, reproducible mapping of coating properties without sample repositioning. This capability supports coating design optimization, quality control in production and improved performance prediction in real world conditions.
Integration of real time angular mapping with modeling software and machine learning promises accelerated development of tailored coatings. Extension to dynamic or in situ measurements may enable monitoring during manufacturing processes.
The Cary 7000 UMS offers rapid unattended angular reflection measurements with polarization control, delivering comprehensive optical characterization of large samples. Visualization tools convert complex data into actionable insights for coating optimization.
NIR Spectroscopy, UV–VIS spectrophotometry
IndustriesMaterials Testing
ManufacturerAgilent Technologies
Summary
Significance of the topic
Understanding angularly resolved reflection is critical for optimizing optical coatings in applications ranging from photovoltaics to sensors. Conventional single angle measurements often miss angular variations that can impact performance in end use.
Study objectives and overview
This study demonstrates automated collection of absolute specular reflection spectra over a wide angle range using the Agilent Cary 7000 universal measurement spectrophotometer UMS. The goal is to reveal the angular dependence of a coated silicon wafer and visualize data in two and three dimensions.
Used instrumentation
- Agilent Cary 7000 universal measurement spectrophotometer UMS
- Automated wire grid polarizer for s and p polarization control
Methodology
Reflection spectra were recorded on a 200 mm silicon wafer coated with an optical film. Measurements spanned 250 to 2500 nm at 1 nm UV Vis and 4 nm NIR intervals, with angles of incidence from 6 to 86 degrees in 1 degree steps. Two baselines for s and p polarization were acquired once and applied to all spectra, enabling unattended data collection.
Results and discussion
Spectral minima in the infrared shifted from about 1900 nm near normal incidence to 1400 nm at grazing angles near 70 degrees, with minima depth approaching zero. Contour and 3D plots highlighted strong angular dependence of reflectance, underscoring the need for multi angle characterization.
Benefits and practical applications
Automated multi angle reflectometry provides fast, reproducible mapping of coating properties without sample repositioning. This capability supports coating design optimization, quality control in production and improved performance prediction in real world conditions.
Future trends and potential applications
Integration of real time angular mapping with modeling software and machine learning promises accelerated development of tailored coatings. Extension to dynamic or in situ measurements may enable monitoring during manufacturing processes.
Conclusion
The Cary 7000 UMS offers rapid unattended angular reflection measurements with polarization control, delivering comprehensive optical characterization of large samples. Visualization tools convert complex data into actionable insights for coating optimization.
References
- Scilab open source software used for data visualization
Content was automatically generated from an orignal PDF document using AI and may contain inaccuracies.
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