Femtosecond laser micromachined optical waveguides in LiTaO<sub>3</sub> crystal

Xu, Miaomiao; He, Rong; Sun, Shumin; Aldana, Javier R. Vázquez de; Chen, Feng

doi:10.1002/pssr.201308102

Cited by 6 publications

(4 citation statements)

References 25 publications

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“…In the past few decades, because of significant advantage over a single lens, artificial compound eyes have been studied by many groups, and several fabrication strategies were proposed, including laser direct writing, − Three-dimensional (3D) configurations, ,− or surface wrinkling. , These methods, however, do not render good control of the geometry and shape of a lenslet due to their intrinsic limitations. Moreover, the stereotype lens shape (round) and a larger size of ommatidia (400–1000 μm) of these artificial eyes are much different from those natural ones, which would seriously degrade their optical performance such as resolution and the signal-to-noise ratio.…”

Section: Introductionmentioning

confidence: 99%

Fabrication of Hierarchical Micro/Nano Compound Eyes

Wang

et al. 2019

ACS Appl. Mater. Interfaces

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Fabrication of a hierarchical macro-/micro-/nano compound eye is presented in this paper. This bioinspired compound (BIC) eye is obtained by an integrated manufacturing technology that combines (i) nanoimprinting, (ii) picosecond laser swelling, and (iii) air-assisted deformation. The diameter and height of nanopillars, microlens, and macrobase can be controlled precisely by fine-tuning the process parameters. The multifunctional properties of the BIC eye, such as superhydrophobicity, antireflection, and other optical characteristics, are investigated. It is found that the microlens with nanopillars can effectively improve the surface wettability with a contact angle of 152° and contact angle hysteresis of 12°, and enhance transmittance by 2% over the wavelength range of 200–1200 nm. Moreover, the final hierarchical compound eye exhibits the excellent imaging properties and a wide field-of-view of 120° without distortion. These multifunctional properties will enable the widespread application of the compound eye in diverse real-time environmental conditions.

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Section: Introductionmentioning

confidence: 99%

Fabrication of Hierarchical Micro/Nano Compound Eyes

Wang

et al. 2019

ACS Appl. Mater. Interfaces

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“…By using a temperature higher than the softening point of the amorphous state and lower than the melting point of the crystal, it is possible to give the amorphous layer enough internal energy to soften and volatilize without changing the structure of the crystal body ( He et al, 2013 ). Xu et al (2013) prepared optical waveguides with low cladding and bilinear structure in LiTaO 3 crystals using femtosecond laser ablation combined with annealing. After the thermal annealing process, the propagation loss of the cladding waveguide was reduced and its transmission loss was minimized to 0.38 dB/cm.…”

Section: Introductionmentioning

confidence: 99%

Femtosecond laser hybrid processing strategy of transparent hard and brittle materials

et al. 2022

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With high hardness, high thermal stability, chemical inertness and excellent optoelectronic properties, transparent hard and brittle materials have drawn significant attentions in frontier domains such as aerospace, photoelectric detection, and high-intensity lasers. Femtosecond laser processing technology demonstrates great potential for transparent hard and brittle materials processing due to its outstanding advantages such as non-contact, true 3D processing and programmable design. However, high-energy laser ablation usually causes severe damage to the surface of the materials, resulting in low processing accuracy, low processing efficiency and poor surface quality. Femtosecond laser hybrid processing strategies have been proven to be an effective solution to solve the above problems. This mini-review summarizes the fundamentals and research progress of femtosecond laser hybrid processing strategies of transparent hard and brittle materials in recent years. Moreover, the challenges and application prospects of these techniques are discussed.

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“…Because of their unique design and benefits, successful mimicking of, for example, an insect’s eye would be a big step toward an ideal visual system that also offers multifunctional benefits like miniaturization, multiaperture, and a large FOV. A well-functioning artificial compound eye (ACE) may find potential applications in areas like navigation, sensing, biomedical endoscopy, and security cameras. ,− Consequently, the preparation and design of a compound eye has become an active research topic.…”

Section: Introductionmentioning

confidence: 99%

Fabrication of Artificial Compound Eye with Controllable Field of View and Improved Imaging

Wang

Mei

Hou

et al. 2020

ACS Appl. Mater. Interfaces

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Many arthropods have compound eyes, which are made up of numerous separate visual units (microlenses) or ommatidia. These natural compound eyes have exceptional optical properties such as wide field of view (FOV), low aberration, and fast motion tracking capability. In this paper, a large-scale artificial compound eye (ACE) is fabricated efficiently using a combination of inkjet printing and air-assisted deformation processes. Both size and geometry of the microlens are controlled via superposed drops on the substrate. The simulation results show that the light intensity of the ACE follows a systematic distribution for tilted incident light, which represents a significant improvement, compared to planar distributed microlenses. We then manufacture ACEs with different heights and diameters, and their FOVs are compared with the theoretically predicted results. The measured FOV was 50°–140°. The acceptance angles for the different ACEs are determined, and their relationship with the ratio of height to radius (H/r) of the microlens is investigated in more detail. Furthermore, the imaging properties of the microlenses with different angles of incidences are studied, which suggest a FOV up to 140° and an acceptance angle of about 50°. The microlens captures images even at an angle of incidence of about 60°. The corresponding distortion in both the x and y directions is also investigated. Our findings provide guidelines for the development and fabrication of ACEs with large FOVs and acceptance angles, which may find applications in military, robotics, medical imaging, and astronomy.

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Femtosecond laser micromachined optical waveguides in LiTaO₃ crystal

Cited by 6 publications

References 25 publications

Fabrication of Hierarchical Micro/Nano Compound Eyes

Fabrication of Hierarchical Micro/Nano Compound Eyes

Femtosecond laser hybrid processing strategy of transparent hard and brittle materials

Fabrication of Artificial Compound Eye with Controllable Field of View and Improved Imaging

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Femtosecond laser micromachined optical waveguides in LiTaO3 crystal

Cited by 6 publications

References 25 publications

Fabrication of Hierarchical Micro/Nano Compound Eyes

Fabrication of Hierarchical Micro/Nano Compound Eyes

Femtosecond laser hybrid processing strategy of transparent hard and brittle materials

Fabrication of Artificial Compound Eye with Controllable Field of View and Improved Imaging

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Product

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Femtosecond laser micromachined optical waveguides in LiTaO₃ crystal