Numerical removal of water vapour effects from terahertz time-domain spectroscopy measurements

Withayachumnankul, Withawat; Fischer, Bernd; Mickan, Samuel P.; Abbott, Derek

doi:10.1098/rspa.2007.0294

Cited by 43 publications

(33 citation statements)

References 42 publications

(63 reference statements)

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“…), the packaging material can significantly attenuate and distort the spectrum of the measured THz signal [7], [8]. The inhomogeneity of the substance surface and high humidity during the measurements also decrease the efficiency of this method [6], [9], [17].…”

Section: Introductionmentioning

confidence: 96%

“…THz spectroscopy and imaging were actively used for this purpose during the past twenty years in the wide area of security applications [1][2][3][4][5][6][7][8][9][10][11][12][13][14][15][16][17][18][19]. At the same time, this technique starts to be widely used for the non-destructive testing, for quality inspection of pharmaceuticals and food products as well as for medical applications [20][21][22][23][24][25][26][27].…”

Section: Introductionmentioning

confidence: 99%

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High effective THz-TDS method for the detection and identification of substances in real conditions

et al. 2016

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Low efficiency of the standard THz-TDS method for the detection and identification of substances is demonstrated. For this purpose, we use a few examples. In the first example, we model the noisy THz signals transmitted through the amphetamine-type stimulant in real conditions. Namely, with a temperature 18° C, the relative humidity of about 50 % and the distance between the parabolic mirror and the object about of 3.5 meters. We show that the standard THz-TDS method reveals the spectral features of many neutral substances and explosives in the noisy THz signals from the illicit stimulant MA, at the same time this method is not able to detect the presence of this stimulant in the noisy signals. The second example is the detection and identification of plastids with inhomogeneous surface in reflection mode. We show that inhomogeneous surface distorts spectral characteristics of the reflected THz signal main pulse, which cannot be used for the detection and identification of the plastids by means of the THz TDS method. In the last example we show that even under laboratory conditions (at short distance from the receiver), THz TDS detects in the semiconductors the absorption frequencies, which belong to both hazardous and neutral substances. To overcome this disadvantage, we propose to use the time-dependent spectrum of the THz pulse, transmitted through or reflected from a substance. For quality assessment of the presence of the standard substance absorption frequency in the signal under analysis, we use time-dependent integral correlation criteria. The influence of aperture placed in front of the sample on spectral properties of silicon wafers with different resistivity is demonstrated as well.Keywords: reflected and transmitted THz pulse, noisy THz pulse, method of spectral dynamics analysis, integral correlation criteria, identification of explosives and drugs. *vatro@cs.msu.ru; phone 7 495 939-5255; fax 7 495 939-2597

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Section: Introductionmentioning

confidence: 96%

Section: Introductionmentioning

confidence: 99%

High effective THz-TDS method for the detection and identification of substances in real conditions

et al. 2016

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“…FIR offers great advantages in the characterization of those inorganic compounds [51][52][53][54], as well as coordination complexes [55], lattice vibrations [56,57], hydrogen bonds [58,59], and the skeleton vibration of ring molecule [58], due to the lower energy in the FIR than the MIR spectral region. Just as with MIR, FIR analysis also suffers from the interference of water vapor in the air especially in low frequency [60,61]. In order to reduce the interference of water, several methods may be adopted [60], such as background subtraction, reduction in moisture level by purging with dry inert gases, resolution reduction, and isolation of the workplace from the air with a physical barrier.…”

Section: The Introduction Of Far-infrared Spectroscopy (Fir)mentioning

confidence: 99%

“…Just as with MIR, FIR analysis also suffers from the interference of water vapor in the air especially in low frequency [60,61]. In order to reduce the interference of water, several methods may be adopted [60], such as background subtraction, reduction in moisture level by purging with dry inert gases, resolution reduction, and isolation of the workplace from the air with a physical barrier. In addition, the spectral information of far infrared below 200 cm −1 may be neglected as there is little meaningful absorption by most compounds of interest, but the absorption of water is very intense in this region [55].…”

Section: The Introduction Of Far-infrared Spectroscopy (Fir)mentioning

confidence: 99%

Differentiation of the Coordination Chemistry of Metal Chlorides in Catalytic Conversion of Glucose in Ionic Liquids

Zhang

2016

Green Chemistry and Sustainable Technology

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Catalytic aldose isomerization to ketose is an important reaction for the utilization of cellulosic biomass. However, a fundamental understanding and knowledge base involved in this reaction remains lacking in the literature. In this chapter, we provide a focused review of the most studied solvent-based catalytic system involving metal halides for glucose isomerization to fructose and further to 5-hydroxymethhylfurfral (5-HMF). Results from studies by different physical techniques are critically reviewed. A differentiation of the coordination chemistry of different metal chlorides obtained by various physical techniques is established to rationalize the drastically different catalytic pathways by the metal chloride catalysts. The performance of metal chloride catalysts for the isomerization of aldose to ketose is found to correlate with their coordination chemistry. Solvents play an important role in determining the coordination structures for the metal ions, which critically affect the catalysis of the metal chloride precursors. Undesired side products are related to the reaction pathways corresponding to the nature of the coordination of metal ions with different oxygen sources in the substrates and the products.

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“…Another recent surge in interest in technology at this frequency range has appeared recently due to the saturation of the "classical radio window" in telecommunications (Hosako et al 2007). For this reason, atmospheric models for absorption of THz photons (Rosenkranz 1998, Slocum et al 2013 and artifact removal models (Withayachumnankul et al 2008) have been developed. Countries near the Equator face a challenge in using this frequency band for astronomical observations and telecommunications using terabit satellite links (Suen 2016) due to the presence of a tropical belt of dense water vapor which efficiently absorbs THz radiation (Seidel et al 2008).…”

Section: Introductionmentioning

confidence: 99%

Low Dimensional Embedding of Climate Data for Radio Astronomical Site Testing in the Colombian Andes

Molano¹,

Suárez²,

Restrepo

et al. 2017

PASP

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Abstract. We set out to evaluate the potential of the Colombian Andes for millimeter-wave astronomical observations. Previous studies for astronomical site testing in this region have suggested that nighttime humidity and cloud cover conditions make most sites unsuitable for professional visible-light observations. Millimeter observations can be done during the day, but require that the precipitable water vapor column above a site stays below ∼10 mm. Due to a lack of direct radiometric or radiosonde measurements, we present a method for correlating climate data from weather stations to sites with a low precipitable water vapor column. We use unsupervised learning techniques to low-dimensionally embed climate data (precipitation, rain days, relative humidity, and sunshine duration) in order to group together stations with similar long-term climate behavior. The data were taken over a period of 30 years by 2046 weather stations across the Colombian territory. We find 6 regions with unusually dry, clear-sky conditions, ranging in elevations from 2200 to arXiv:1705.06121v4 [astro-ph.IM] 15 Sep 2017Low Dimensional Embedding of Climate Data for Radio Astronomical Site Testing 2 3800 masl. We evaluate the suitability of each region using a quality index derived from a Bayesian probabilistic analysis of the station type and elevation distributions. Two of these regions show a high probability of having an exceptionally low precipitable water vapor column. We compared our results with global precipitable water vapor maps and find a plausible geographical correlation with regions with low water vapor columns (∼ 10 mm) at an accuracy of ∼ 20 km. Our methods can be applied to similar datasets taken in other countries as a first step toward astronomical site evaluation.

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Numerical removal of water vapour effects from terahertz time-domain spectroscopy measurements

Cited by 43 publications

References 42 publications

High effective THz-TDS method for the detection and identification of substances in real conditions

High effective THz-TDS method for the detection and identification of substances in real conditions

Differentiation of the Coordination Chemistry of Metal Chlorides in Catalytic Conversion of Glucose in Ionic Liquids

Low Dimensional Embedding of Climate Data for Radio Astronomical Site Testing in the Colombian Andes

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