Abstract

We develop a high-speed two-dimensional (2D) terahertz (THz) color imaging system for practical applications. This system performs THz time-domain spectroscopy (THz-TDS) measurements in one-dimensional (1D) space simultaneously to reduce the spatial scan from 2D to 1D and obtains the 2D THz color image in which the spectral data is possessed in each pixel. We realize measurements on the image with 750 × 1000 pixels (13 mm × 25 mm) with the spatial resolution of 1.5 mm within 10 seconds. This is two orders of magnitude faster than conventional THz color imaging methods. High-speed 2D THz color imaging will be used in non-destructive and non-invasive inspections of industrial products and biological tissues in the future.

© 2020 Optical Society of America under the terms of the OSA Open Access Publishing Agreement

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2020 (1)

2019 (5)

P. Hillger, J. Grzyb, R. Jain, and U. R. Pfeiffer, “Terahertz Imaging and Sensing Applications With Silicon-Based Technologies,” IEEE Trans. Terahertz Sci. Technol. 9(1), 1–19 (2019).
[Crossref]

L. Afsah-Hejri, P. Hajeb, P. Ara, and R. J. Ehsani, “A Comprehensive Review on Food Applications of Terahertz Spectroscopy and Imaging,” Compr. Rev. Food Sci. Food Saf. 18(5), 1563–1621 (2019).
[Crossref]

M. Kulya, N. V. Petrov, A. Tsypkin, K. Egiazarian, and V. Katkovnik, “Hyperspectral data denoising for terahertz pulse time-domain holography,” Opt. Express 27(13), 18456–18476 (2019).
[Crossref]

N. A. Aghamiri, F. Huth, A. J. Huber, A. Fali, R. Hillenbrand, and Y. Abate, “Hyperspectral time-domain terahertz nano-imaging,” Opt. Express 27(17), 24231–24242 (2019).
[Crossref]

L. Liebermeister, S. Nellen, R. Kohlhaas, S. Breuer, M. Schell, and B. Globisch, “Ultra-fast, High-Bandwidth Coherent cw THz Spectrometer for Non-destructive Testing,” J. Infrared, Millimeter, Terahertz Waves 40(3), 288–296 (2019).
[Crossref]

2018 (4)

M. Tsubouchi and K. Nagashima, “High-Speed Terahertz Waveform Measurement for Intense Terahertz Light Using 100-kHz Yb-Doped Fiber Laser,” Sensors 18(6), 1936 (2018).
[Crossref]

D. M. Mittleman, “Twenty years of terahertz imaging [Invited],” Opt. Express 26(8), 9417–9431 (2018).
[Crossref]

H. Guerboukha, K. Nallappan, and M. Skorobogatiy, “Toward real-time terahertz imaging,” Adv. Opt. Photonics 10(4), 843–938 (2018).
[Crossref]

K. Nagashima, M. Tsubouchi, Y. Ochi, and M. Maruyama, “Improvement of contact grating device for efficient terahertz wave generation using bi-angular filter,” J. Appl. Phys. 123(12), 123104 (2018).
[Crossref]

2017 (6)

Q. S. Sun, Y. Z. He, K. Liu, S. T. Fan, E. P. J. Parrott, and E. Pickwell-MacPherson, “Recent advances in terahertz technology for biomedical applications,” Quant. Imaging Med. Surg. 7(3), 345–355 (2017).
[Crossref]

N. Kanda, K. Konishi, N. Nemoto, K. Midorikawa, and M. Kuwata-Gonokami, “Real-time broadband terahertz spectroscopic imaging by using a high-sensitivity terahertz camera,” Sci. Rep. 7(1), 42540 (2017).
[Crossref]

A. M. Gomez-Sepulveda, A. I. Hernandez-Serrano, R. Radpour, C. L. Koch-Dandolo, S. C. Rojas-Landeros, L. F. Ascencio-Rojas, A. Zarate, G. Hernandez, R. C. Gonzalez-Tirado, M. Insaurralde-Caballero, and E. Castro-Camus, “History of Mexican Easel Paintings from an Altarpiece Revealed by Non-invasive Terahertz Time-Domain Imaging,” J. Infrared, Millimeter, Terahertz Waves 38(4), 403–412 (2017).
[Crossref]

M. Inuzuka, Y. Kouzuma, N. Sugioka, K. Fukunaga, and T. Tateishi, “Investigation of Layer Structure of the Takamatsuzuka Mural Paintings by Terahertz Imaging Technique,” J. Infrared, Millimeter, Terahertz Waves 38(4), 380–389 (2017).
[Crossref]

K. Krügener, S. F. Busch, A. Soltani, E. Castro-Camus, M. Koch, and W. Viöl, “Non-destructive Analysis of Material Detachments from Polychromatically Glazed Terracotta Artwork by THz Time-of-Flight Spectroscopy,” J. Infrared, Millimeter, Terahertz Waves 38(4), 495–502 (2017).
[Crossref]

S. S. Dhillon, M. S. Vitiello, E. H. Linfield, A. G. Davies, M. C. Hoffmann, J. Booske, C. Paoloni, M. Gensch, P. Weightman, G. P. Williams, E. Castro-Camus, D. R. S. Cumming, F. Simoens, I. Escorcia-Carranza, J. Grant, S. Lucyszyn, M. Kuwata-Gonokami, K. Konishi, M. Koch, C. A. Schmuttenmaer, T. L. Cocker, R. Huber, A. G. Markelz, Z. D. Taylor, V. P. Wallace, J. A. Zeitler, J. Sibik, T. M. Korter, B. Ellison, S. Rea, P. Goldsmith, K. B. Cooper, R. Appleby, D. Pardo, P. G. Huggard, V. Krozer, H. Shams, M. Fice, C. Renaud, A. Seeds, A. Stohr, M. Naftaly, N. Ridler, R. Clarke, J. E. Cunningham, and M. B. Johnston, “The 2017 terahertz science and technology roadmap,” J. Phys. D: Appl. Phys. 50(4), 043001 (2017).
[Crossref]

2016 (2)

E.-M. Stübling, S. Busch, J. C. Balzer, and M. Koch, “Development of a multi-channel time-to-space terahertz spectrometer,” Opt. Express 24(20), 23146–23153 (2016).
[Crossref]

S.-H. Lee, M. Jazbinsek, C. P. Hauri, and O. P. Kwon, “Recent progress in acentric core structures for highly efficient nonlinear optical crystals and their supramolecular interactions and terahertz applications,” CrystEngComm 18(38), 7180–7203 (2016).
[Crossref]

2015 (1)

E. Abraham and K. Fukunaga, “Terahertz imaging applied to the examination of artistic objects,” Stud. Conserv. 60(6), 343–352 (2015).
[Crossref]

2014 (3)

2013 (1)

2012 (1)

C. Yu, S. Fan, Y. Sun, and E. Pickwell-MacPherson, “The potential of terahertz imaging for cancer diagnosis: A review of investigations to date,” Quant. Imaging Med. Surg. 2, 33–45 (2012).
[Crossref]

2011 (1)

2010 (4)

X. Wang, Y. Cui, W. Sun, J. Ye, and Y. Zhang, “Terahertz real-time imaging with balanced electro-optic detection,” Opt. Commun. 283(23), 4626–4632 (2010).
[Crossref]

X. K. Wang, Y. Cui, W. F. Sun, J. S. Ye, and Y. Zhang, “Terahertz polarization real-time imaging based on balanced electro-optic detection,” J. Opt. Soc. Am. A 27(11), 2387–2393 (2010).
[Crossref]

E. Abraham, A. Younus, J. C. Delagnes, and P. Mounaix, “Non-invasive investigation of art paintings by terahertz imaging,” Appl. Phys. A 100(3), 585–590 (2010).
[Crossref]

C. Jansen, S. Wietzke, O. Peters, M. Scheller, N. Vieweg, M. Salhi, N. Krumbholz, C. Jördens, T. Hochrein, and M. Koch, “Terahertz imaging: applications and perspectives,” Appl. Opt. 49(19), E48–E57 (2010).
[Crossref]

2009 (1)

2008 (3)

2007 (2)

B. Pradarutti, R. Müller, G. Matthäus, C. Brückner, S. Riehemann, G. Notni, S. Nolte, and A. Tünnermann, “Multichannel balanced electro-optic detection for Terahertz imaging,” Opt. Express 15(26), 17652–17660 (2007).
[Crossref]

Y. S. Jin, S. G. Jeon, G. J. Kim, J. I. Kim, and C. H. Shon, “Fast scanning of a pulsed terahertz signal using an oscillating optical delay line,” Rev. Sci. Instrum. 78(2), 023101 (2007).
[Crossref]

2005 (1)

2004 (2)

A. d. Juan, R. Tauler, R. Dyson, C. Marcolli, M. Rault, and M. Maeder, “Spectroscopic imaging and chemometrics: a powerful combination for global and local sample analysis,” TrAC, Trends Anal. Chem. 23(1), 70–79 (2004).
[Crossref]

X. C. Zhang, “Three-dimensional terahertz wave imaging,” Philos. Trans. R. Soc., A 362(1815), 283–299 (2004).
[Crossref]

2003 (1)

A. G. Stepanov, J. Hebling, and J. Kuhl, “Efficient generation of subpicosecond terahertz radiation by phase-matched optical rectification using ultrashort laser pulses with tilted pulse fronts,” Appl. Phys. Lett. 83(15), 3000–3002 (2003).
[Crossref]

2002 (2)

J. Hebling, G. Almási, I. Z. Kozma, and J. Kuhl, “Velocity matching by pulse front tilting for large-area THz-pulse generation,” Opt. Express 10(21), 1161–1166 (2002).
[Crossref]

A. J. Fitzgerald, E. Berry, N. N. Zinovev, G. C. Walker, M. A. Smith, and J. M. Chamberlain, “An introduction to medical imaging with coherent terahertz frequency radiation,” Phys. Med. Biol. 47(7), R67–R84 (2002).
[Crossref]

1997 (1)

1993 (1)

R. Tauler, B. Kowalski, and S. Fleming, “Multivariate curve resolution applied to spectral data from multiple runs of an industrial process,” Anal. Chem. 65(15), 2040–2047 (1993).
[Crossref]

1990 (1)

M. Vanexter and D. R. Grischkowsky, “Characterization of an optoelectronic terahertz beam system,” IEEE Trans. Microwave Theory Tech. 38(11), 1684–1691 (1990).
[Crossref]

1989 (1)

Abate, Y.

Abraham, E.

E. Abraham and K. Fukunaga, “Terahertz imaging applied to the examination of artistic objects,” Stud. Conserv. 60(6), 343–352 (2015).
[Crossref]

E. Abraham, A. Younus, J. C. Delagnes, and P. Mounaix, “Non-invasive investigation of art paintings by terahertz imaging,” Appl. Phys. A 100(3), 585–590 (2010).
[Crossref]

T. Yasui, K. Sawanaka, A. Ihara, E. Abraham, M. Hashimoto, and T. Araki, “Real-time terahertz color scanner for moving objects,” Opt. Express 16(2), 1208–1221 (2008).
[Crossref]

Afsah-Hejri, L.

L. Afsah-Hejri, P. Hajeb, P. Ara, and R. J. Ehsani, “A Comprehensive Review on Food Applications of Terahertz Spectroscopy and Imaging,” Compr. Rev. Food Sci. Food Saf. 18(5), 1563–1621 (2019).
[Crossref]

Aghamiri, N. A.

Agranat, M. B.

Almasi, G.

L. Palfalvi, J. A. Fulop, G. Almasi, and J. Hebling, “Novel setups for extremely high power single-cycle terahertz pulse generation by optical rectification,” Appl. Phys. Lett. 92(17), 171107 (2008).
[Crossref]

A. G. Stepanov, J. Kuhl, I. Z. Kozma, E. Riedle, G. Almasi, and J. Hebling, “Scaling up the energy of THz pulses created by optical rectification,” Opt. Express 13(15), 5762–5768 (2005).
[Crossref]

Almási, G.

Appleby, R.

S. S. Dhillon, M. S. Vitiello, E. H. Linfield, A. G. Davies, M. C. Hoffmann, J. Booske, C. Paoloni, M. Gensch, P. Weightman, G. P. Williams, E. Castro-Camus, D. R. S. Cumming, F. Simoens, I. Escorcia-Carranza, J. Grant, S. Lucyszyn, M. Kuwata-Gonokami, K. Konishi, M. Koch, C. A. Schmuttenmaer, T. L. Cocker, R. Huber, A. G. Markelz, Z. D. Taylor, V. P. Wallace, J. A. Zeitler, J. Sibik, T. M. Korter, B. Ellison, S. Rea, P. Goldsmith, K. B. Cooper, R. Appleby, D. Pardo, P. G. Huggard, V. Krozer, H. Shams, M. Fice, C. Renaud, A. Seeds, A. Stohr, M. Naftaly, N. Ridler, R. Clarke, J. E. Cunningham, and M. B. Johnston, “The 2017 terahertz science and technology roadmap,” J. Phys. D: Appl. Phys. 50(4), 043001 (2017).
[Crossref]

Ara, P.

L. Afsah-Hejri, P. Hajeb, P. Ara, and R. J. Ehsani, “A Comprehensive Review on Food Applications of Terahertz Spectroscopy and Imaging,” Compr. Rev. Food Sci. Food Saf. 18(5), 1563–1621 (2019).
[Crossref]

Araki, T.

Ascencio-Rojas, L. F.

A. M. Gomez-Sepulveda, A. I. Hernandez-Serrano, R. Radpour, C. L. Koch-Dandolo, S. C. Rojas-Landeros, L. F. Ascencio-Rojas, A. Zarate, G. Hernandez, R. C. Gonzalez-Tirado, M. Insaurralde-Caballero, and E. Castro-Camus, “History of Mexican Easel Paintings from an Altarpiece Revealed by Non-invasive Terahertz Time-Domain Imaging,” J. Infrared, Millimeter, Terahertz Waves 38(4), 403–412 (2017).
[Crossref]

Ashitkov, S. I.

Balzer, J. C.

Baraniuk, R. G.

Berry, E.

A. J. Fitzgerald, E. Berry, N. N. Zinovev, G. C. Walker, M. A. Smith, and J. M. Chamberlain, “An introduction to medical imaging with coherent terahertz frequency radiation,” Phys. Med. Biol. 47(7), R67–R84 (2002).
[Crossref]

Boivin, L.

Booske, J.

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Supplementary Material (2)

NameDescription
» Visualization 1       Demonstration on the real-time measurements of THz waveform and spectrum. The software is built by LabVIEW. The upper and lower windows display the THz waveform and spectrum, respectively. The red and yellow curves are measured on the outward and ret
» Visualization 2       Demonstration on the real-time 1D THz color imaging. The upper and lower windows show the 1D profiles of the THz waveform and spectrum, respectively. The horizontal axis shows the position of the X axis. The vertical axes show the time and frequency

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Figures (6)

Fig. 1.
Fig. 1. Experimental setup for 2D THz color imaging. The figures show the top view. The side views are inserted at the positions of the sample and the EO crystal. (a) THz generation and detection system. PBS: polarizing beam splitter that reflects and transmits s and p polarized light, respectively; BS: beam splitter; PD: photodiode for the trigger synchronizing between the THz light generation and the line scan of the camera; λ/2 and λ/4: half- and quarter-wave plates, respectively; CL: BK7 cylindrical lens with focal length of 300 mm; CGD: contact grating device; NIR filter: plastic plate with a high-reflection coating for the NIR light; CPL and PL: cylindrical and aspheric plastic lenses with focal length of 50 mm, respectively; ITO: indium-tin-oxide coated glass plate. x, y, and z are the crystal axes of the LN crystal. X and Y indicate the axes of the 2D spatial images shown in the following figures. (b) Balanced line imaging detection for the 1D spatial profile of the THz amplitude imaging. Lens: BK7 spherical lens with focal length of 100 mm; BPD: balanced photodiode.
Fig. 2.
Fig. 2. Characteristics of THz light. (a) Waveform and (b) Fourier-transformed spectrum obtained by a single scan of the speaker vibration. The real-time THz waveform and spectrum measurements are demonstrated in Visualization 1. (c) Beam pattern of the line-focused THz light at the sample.
Fig. 3.
Fig. 3. Procedure of the data analysis during measurements on the 1D spatial profile of the THz waveform. (a) and (b) Raw images of the EO probe light with and without THz light irradiation to the CdTe crystal, respectively. The left and right components in each figure show the images of the horizontally and perpendicularly polarized EO probe light, respectively. (c) and (d) Difference images between the left and right components in (a) and (b), respectively. (e) Final output of the 1D spatial profile of the THz waveform. (f) THz waveform at the X position of 400 in the image (e).
Fig. 4.
Fig. 4. 1D THz color image calculated by the Fourier transform of the 1D spatial profile of the THz waveforms shown in Fig. 3(e). Real-time measurements of 1D THz color imaging is demonstrated in Visualization 2.
Fig. 5.
Fig. 5. Frequency-resolved 2D intensity maps of the transmitted THz light through the aluminum mask illustrated in the lower right of the figure. The transmittance images are shown in the figures. The frequency ranges are (a) 0–0.40 THz, (b) 0.40–0.67 THz, (c) 0.67–0.93 THz, (d) 0.93–1.20 THz, and (e) 1.20–1.47 THz, respectively. The inserted black curve in (c) indicates the cross-section of the transmittance image at Y = 23 mm.
Fig. 6.
Fig. 6. Frequency-resolved 2D intensity maps of the transmitted THz light through the 0.3-mm-thick paper illustrated in the lower right of the figure. The transmittance images are shown in the figures. The frequency ranges are (a) 0–0.40 THz, (b) 0.40–0.67 THz, (c) 0.67–0.93 THz, (d) 0.93–1.20 THz, and (e) 1.20–1.47 THz, respectively.

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