Material thickness optimization for transmission-mode terahertz time-domain spectroscopy

The thickness of a sample material for a transmission-mode terahertz time-domain spectroscopy (THz-TDS) measurement is the subject of interest in this paper. A sample that is too thick or too thin can raise the problem of measurement uncertainty. Although greater thickness allows the terahertz radia...

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Published inOptics express Vol. 16; no. 10; p. 7382
Main Authors Withayachumnankul, Withawat, Fischer, Bernd M., Abbott, Derek
Format Journal Article
LanguageEnglish
Published United States 12.05.2008
Subjects
Algorithms
Chemistry, Physical - methods
Equipment Design
Lactose - chemistry
Models, Statistical
Monte Carlo Method
Optics and Photonics
Polyethylene - chemistry
Polyvinyl Chloride - chemistry
Reproducibility of Results
Spectrophotometry - methods
Stress, Mechanical
Time Factors
Online AccessGet full text
ISSN1094-4087
1094-4087
DOI10.1364/OE.16.007382

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Abstract The thickness of a sample material for a transmission-mode terahertz time-domain spectroscopy (THz-TDS) measurement is the subject of interest in this paper. A sample that is too thick or too thin can raise the problem of measurement uncertainty. Although greater thickness allows the terahertz radiation--or T-rays--to interact more with bulk material, the SNR rolls off with thickness due to signal attenuation. A sample that is too thin renders itself nearly invisible to T-rays, in such a way that the system can hardly sense the difference between the sample and a free space path. The optimal trade-off is analyzed and revealed in this paper, where our approach is to find the optimal thickness that results in the minimal uncertainty of measured optical constants. The derived model for optimal thickness is supported by the results from experiments performed with polyvinyl chloride (PVC), high-density polyethylene (HDPE), and lactose samples.
AbstractList The thickness of a sample material for a transmission-mode terahertz time-domain spectroscopy (THz-TDS) measurement is the subject of interest in this paper. A sample that is too thick or too thin can raise the problem of measurement uncertainty. Although greater thickness allows the terahertz radiation--or T-rays--to interact more with bulk material, the SNR rolls off with thickness due to signal attenuation. A sample that is too thin renders itself nearly invisible to T-rays, in such a way that the system can hardly sense the difference between the sample and a free space path. The optimal trade-off is analyzed and revealed in this paper, where our approach is to find the optimal thickness that results in the minimal uncertainty of measured optical constants. The derived model for optimal thickness is supported by the results from experiments performed with polyvinyl chloride (PVC), high-density polyethylene (HDPE), and lactose samples.
The thickness of a sample material for a transmission-mode terahertz time-domain spectroscopy (THz-TDS) measurement is the subject of interest in this paper. A sample that is too thick or too thin can raise the problem of measurement uncertainty. Although greater thickness allows the terahertz radiation--or T-rays--to interact more with bulk material, the SNR rolls off with thickness due to signal attenuation. A sample that is too thin renders itself nearly invisible to T-rays, in such a way that the system can hardly sense the difference between the sample and a free space path. The optimal trade-off is analyzed and revealed in this paper, where our approach is to find the optimal thickness that results in the minimal uncertainty of measured optical constants. The derived model for optimal thickness is supported by the results from experiments performed with polyvinyl chloride (PVC), high-density polyethylene (HDPE), and lactose samples.The thickness of a sample material for a transmission-mode terahertz time-domain spectroscopy (THz-TDS) measurement is the subject of interest in this paper. A sample that is too thick or too thin can raise the problem of measurement uncertainty. Although greater thickness allows the terahertz radiation--or T-rays--to interact more with bulk material, the SNR rolls off with thickness due to signal attenuation. A sample that is too thin renders itself nearly invisible to T-rays, in such a way that the system can hardly sense the difference between the sample and a free space path. The optimal trade-off is analyzed and revealed in this paper, where our approach is to find the optimal thickness that results in the minimal uncertainty of measured optical constants. The derived model for optimal thickness is supported by the results from experiments performed with polyvinyl chloride (PVC), high-density polyethylene (HDPE), and lactose samples.
Author Withayachumnankul, Withawat
Abbott, Derek
Fischer, Bernd M.
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Snippet The thickness of a sample material for a transmission-mode terahertz time-domain spectroscopy (THz-TDS) measurement is the subject of interest in this paper. A...
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SubjectTerms Algorithms
Chemistry, Physical - methods
Equipment Design
Lactose - chemistry
Models, Statistical
Monte Carlo Method
Optics and Photonics
Polyethylene - chemistry
Polyvinyl Chloride - chemistry
Reproducibility of Results
Spectrophotometry - methods
Stress, Mechanical
Time Factors
Title Material thickness optimization for transmission-mode terahertz time-domain spectroscopy
URI https://www.ncbi.nlm.nih.gov/pubmed/18545443
https://www.proquest.com/docview/71666681
https://doi.org/10.1364/oe.16.007382
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