Abstract
Terahertz (THz) pulse/time-domain imaging attracted increased interest in recent years mostly due to its ability to extract dielectric properties of sample materials (i.e., absorption coefficient and the refraction index) from the amplitude and phase of each spectral component of the THz pulse. The resulting data from a THz time-domain system represents a 3-dimensional (3D) hyperspectral cube which contains several 2D images corresponding to different frequencies or bands. Due to a frequency-dependent non-zero THz beam waist, these 2D images are corrupted by blurring artifacts: a THz beam waist is wider on lower frequencies leading to more blurry corresponding 2D images. At higher frequencies, the beam waist is smaller resulting in sharper, but noisier images due to the decrease in the THz signal amplitude. The main focus of this work is the joint reduction of blur and noise from THz time-domain images. We propose two instances of a fast joint deblurring and denoising approach which is able to deal with THz time-domain images corrupted by different noise types and frequency-dependent blur. The experiments performed on synthetic and real THz time-domain images show that the proposed approach outperforms conventional 2D deblurring approaches and methods tailored to remote sensing hyperspectral images. To the best of our knowledge, this is the first time that a joint deblurring and denoising approach tailored to THz time-domain images is proposed taking into consideration band-dependent blur and different noise types.
Highlights
The terahertz (THz) region of the electromagnetic spectrum lies between 0.1 and 10 THz
We took into consideration several aspects: 1) size of the synthetic images should be close to the size of real images (e.g., 61 × 41 × 263 pixels); 2) point-spread function (PSF) are different over bands and controlled by setting w0 and λ in (1) and (2); 3) we are considering different noise types and levels in order to synthesize both amplitude and transmittance images; 4) intensity change over bands is taken into account
In this work, we propose a joint deblurring and denoising method tailored to THz time-domain images
Summary
The terahertz (THz) region of the electromagnetic spectrum lies between 0.1 and 10 THz. In recent years, scientists from both electronics and optics pioneered many new THz techniques and systems enabling faster growth of the THz scientific field. This rapid growth is mostly due to immense progress in THz sources development [2] and the fact that the non-ionizing THz radiation, able to penetrate dialectic materials, is used in many applications (e.g., security [3], conservation of cultural heritage [4], and medicine [5]). We are focused on a pulsed/time-domain THz imaging system in the transmission mode (the THz beam is transmitted through the sample). The THz time-domain spectroscopy (THz-TDS), a technique primarily developed
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