Recent advances in generation of terahertz vortex beams and their applications*

Wang, Honggeng; Song, Qiying; Cai, Yi; Lin, Qing; Lu, Xiaowei; Shangguan, Huangcheng; Ai, Yuexia; Xu, Shixiang

doi:10.1088/1674-1056/aba2df

Cited by 35 publications

(16 citation statements)

References 164 publications

(289 reference statements)

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“…It would be interesting to explore the STOC phenomena in other kinds of spherulites, which may have advantages over ascorbic acid. In particular, recently the controlled generation of quartz spherulites [32] may offer an interesting way for creating vortex beams in the Tera Hertz frequency domain [33] (qplates for this regime have been recently realized using either 3D printing techniques [34] or quartz segmented waveplates [35]) It would also shed light on the role of different crystal structures and symmetries in the shaping of light.…”

Section: Discussionmentioning

confidence: 99%

Spin-orbit coupling induced by ascorbic acid crystals

Grenapin¹,

D’Errico²,

Karimi³

2022

Preprint

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Some anisotropic materials form semicristalline structures, called spherulites, which observed in a polarisation microscope, exhibit a characteristic "maltese-cross"-like pattern. While this observation has been hitherto considered as a tool to characterize these materials, we show that these patterns are associated with a strong light's spin-orbit coupling induced by the spherulite structures. We experimentally demonstrate these effects using samples of crystallized ascorbic acid and observing the creation of optical vortices in transmitted laser beams, as well as the formation of inhomogeneous polarisation patterns. Our findings suggest the use of spherulites in frequency ranges, e.g. in the THz domain, where polarisation and spatial shaping of electromagnetic radiation is still a challenging task.

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Section: Discussionmentioning

confidence: 99%

Spin-orbit coupling induced by ascorbic acid crystals

Grenapin¹,

D’Errico²,

Karimi³

2022

Preprint

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“…As a consequence, some new theoretical concepts are proposed, e.g. vortex particle beam accelerations [14], strong magnetic field generation [15], intense terahertz vortex [16], vortex high-order harmonic generation [17], and so on. However, the corresponding experimental verification is devoid due to the lack of a high-quality terawatt/petawatt (TW/PW) vortex laser.…”

Section: Introductionmentioning

confidence: 99%

Forty-five terawatt vortex ultrashort laser pulses from a chirped-pulse amplification system

Chen

Zheng

et al. 2022

High Pow Laser Sci Eng

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We report on a vortex laser chirped-pulse amplification (CPA) system that delivers pulses with a peak power of 45 TW. A focused intensity exceeding 10 19 W/cm 2 has been demonstrated for the first time by the vortex amplification scheme. Compared with other schemes of strong-field vortex generation with high energy flux but narrowband vortex converting elements at the end of the laser, an important advantage of our scheme is that we can use broadband but size-limited q-plate to realize broadband modeconverting in the front end of the CPA system, and achieve high-power amplification with a series of amplifiers. This method is low cost and can be easily implemented in an existing laser system. The results have verified the feasibility to obtain terawatt even petawatt vortex laser amplification by a CPA system, which has important potential applications in strong-field laser physics, e.g. generation of vortex particle beams with orbital angular momentum, fast ignition for inertial confinement fusion, simulation of the extreme astrophysical environment.

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“…Even if today the available structures in the THz regime are still limited, due to the constraint of the present techniques of light manipulation, THz beams carrying optical angular momentum have been proposed in many applications, ranging from THz communications to super-resolution imaging and the investigation of nonlinearities in advanced materials and systems [ 2 , 3 , 4 ], and even to accelerate and manipulate electron bunches [ 5 ]. For instance, coherent high-field THz radiation from ultrashort relativistic electron bunches is generated by accelerator-based sources, where the super-radiant and the high field emission require density modulation at THz frequencies [ 6 ].…”

Section: Introductionmentioning

confidence: 99%

THz Multi-Mode Q-Plate with a Fixed Rate of Change of the Optical Axis Using Form Birefringence

2022

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We report the design, fabrication and experimental validation of a THz all-dielectric multi-mode q-plate having a fixed rate of change of the optical axis. The device consists of space-variant birefringent slabs manufactured by 3D printing using melt-extruded Acrylonitrile Butadiene Styrene (ABS). The desired form birefringence is analytically evaluated and experimentally measured by the THz time domain spectroscopy technique. The manufactured q-plate design is characterized using a polarization-sensitive imaging setup. The full electric field spatial maps are acquired from the beam propagating through the q-plate. The device enables the realization of both radial and azimuthal vector beams at discrete frequency intervals by controlling the space-dependent orientation of the ordinary and extraordinary axes in the transverse plane with a multi-mode sequence.

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Recent advances in generation of terahertz vortex beams and their applications*

Cited by 35 publications

References 164 publications

Spin-orbit coupling induced by ascorbic acid crystals

Spin-orbit coupling induced by ascorbic acid crystals

Forty-five terawatt vortex ultrashort laser pulses from a chirped-pulse amplification system

THz Multi-Mode Q-Plate with a Fixed Rate of Change of the Optical Axis Using Form Birefringence

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