# Fast and high-accuracy measuring technique for transmittance spectrum in   VIS-NIR

**Authors:** Wang Shenghao, Liu Shijie, Wang Weiwei, Zhang Zhigang

arXiv: 1705.05226 · 2018-01-04

## TL;DR

This paper introduces a novel VIS-NIR transmittance measurement technique that significantly reduces measurement time while maintaining high accuracy and stability, suitable for dynamic environments.

## Contribution

The paper presents a new fast, high-accuracy transmittance measurement method based on continuous wavelength scanning and concurrent data acquisition, improving speed and stability over traditional methods.

## Key findings

- Measurement time reduced by 50% compared to conventional methods.
- Achieved measurement accuracy of 0.070% relative error.
- System demonstrates high mechanical stability during continuous operation.

## Abstract

In this paper, based on the framework of traditional spectrophotometry, we put forward a novel fast and high-accuracy technique for measuring transmittance spectrum in VIS-NIR wave range, its key feature is that during the measurement procedure, the output wavelength of the grating monochromator is kept increasing continuously and at the same time, the photoelectric detectors execute a concurrently continuous data acquisition routine. Initial experiment result shows that the newly proposed technique could shorten the time consumed for measuring the transmittance spectrum down to 50% that of the conventional spectrophotometric method, a relative error of 0.070% and a repeatability error of 0.042% are generated. Compared with the current mostly used techniques (spectrophotometry, methods based on multi-channel spectrometer and strategy using Fourier transform spectrometer) for obtaining transmittance spectrum in VIS-NIR, the new strategy has at all once the following advantages, firstly the measuring speed could be greatly quicken, fast measurement of transmittance spectrum in VIS-NIR is therefore promising, which would find wide application in dynamic environment, secondly high measuring accuracy (0.1%-0.3%) is available, and finally the measuring system has high mechanical stability because the motor of the grating monochromator is rotating continuously during the measurement.

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Source: https://tomesphere.com/paper/1705.05226