Terajet-assisted time-domain super-resolution imaging

Paddubskaya, A G; Valynets, N I; Novitsky, A V; Minin, O V; Minin, I V

doi:10.1088/1361-6463/ad1b9c

J. Phys. D: Appl. Phys.

2024

DOI: 10.1088/1361-6463/ad1b9c

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Terajet-assisted time-domain super-resolution imaging

A G Paddubskaya,

N I Valynets,

A V Novitsky

et al.

Abstract: Large-scale applications of real-time terahertz (THz) imaging are often limited by the spatial resolution of a THz microscope. One of the simplest approaches to circumvent this problem in practice and achieve resolution below the diffraction limit consists in placing a dielectric particle with a size comparable to the radiation wavelength in the vicinity of the focal plane of the THz imaging system. Here, we theoretically consider the transmittance of a THz Gaussian beam through a Teflon sphere to further anal… Show more

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Cited by 3 publications

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Fabry–Perot enhancement of liquid crystals birefringence effects in terahertz range

Batrakov,

Valynets,

Dubinetski

et al. 2024

Phys. Scr.

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THz technology is a rapidly advancing field in both fundamental and applied research, integrating novel approaches from optical and microwave ranges. Despite the wide applications of liquid crystals (LCs) in the visible range, their efficiency in the THz range is limited due to the low optical path length of existing anisotropic LC materials. In this work, we propose and explore the advantages of incorporating a LC core layer into the Fabry-Perot resonator as a simple strategy to enhance the observed birefringence effects. This enhancement is achieved through multiple wave passes through the LC layer, effectively increasing the effective optical path length.In particular, we demonstrate a more than tenfold improvement in the efficiency of wave transformation within a plane-parallel LC layer.Our findings are well correlated with the THz response of an LC cell composed of two parallel thick quartz substrates infiltrated with commercially available E48 liquid crystal, as observed in our experiments. The low switching voltage for cells with pyrocarbon-based electrodes is also demonstrated.

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Fabry–Perot enhancement of liquid crystals birefringence effects in terahertz range

Batrakov,

Valynets,

Dubinetski

et al. 2024

Phys. Scr.

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show abstract

Stability of the Formation of an Image Using a Terajet with Respect to the Beam Shift

Paddubskaya,

Novitsky,

Minin

et al. 2024

Jetp Lett.

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The shift of an image of a dielectric sphere asymmetrically irradiated by a terahertz Gaussian beam in terahertz imaging systems has been demonstrated experimentally. Numerical calculations using the operator scattering theory have shown the bending of the localization region of the electromagnetic field near the shadow surface of the dielectric sphere when it is shifted with respect to the waist center of the Gaussian beam, leading to the formation of the so-called “photonic hook” with the properties depending on the polarization and frequency of the incident radiation. The possibility of reaching a spatial resolution of 0.38λ in the studied range has been shown experimentally. The obtained results can be used to increase the resolution of commercial scanning terahertz systems.

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Ustoychivost' formirovaniya izobrazheniya s ispol'zovaniem terastrui otnositel'no sdviga puchka

Poddubskaya,

Novitskiy,

Minin

et al. 2024

Pisʹma v žurnal êksperimentalʹnoj i teoretičeskoj fiziki

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Terajet-assisted time-domain super-resolution imaging

Cited by 3 publications

References 47 publications

Fabry–Perot enhancement of liquid crystals birefringence effects in terahertz range

Fabry–Perot enhancement of liquid crystals birefringence effects in terahertz range

Stability of the Formation of an Image Using a Terajet with Respect to the Beam Shift

Ustoychivost' formirovaniya izobrazheniya s ispol'zovaniem terastrui otnositel'no sdviga puchka

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