Fabrication of Lensed Optical Fibers for Biosensing Probes Using CO2 and Femtosecond Lasers

Lim, K.S.; Choi, Hun-Kook; Sohn, Ik-Bu; Lee, Byeong Ha; Kim, Jintae

doi:10.3390/app11093738

Cited by 6 publications

(2 citation statements)

References 21 publications

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“…However, optical sensing and optical imaging require optical fibers to have the ability to regulate light with the development of optical fiber technology, and the most optical fibers are difficult to meet present requirement of optical sensing and optical imaging. To solve this problem, photonic crystal fibers [7][8][9] and lens fibers [10][11][12] are developed, photonic crystal fiber can achieve different light regulation by changing different lattice parameters, and lens fiber can regulate light output and imaging by manufacturing optical lens on the end face of optical fiber. Although photonic crystal fiber and lens fiber have excellent light regulation ability, which have the disadvantages of complex fabrication, high cost and high requirements for equipment.…”

Section: Introductionmentioning

confidence: 99%

Research on the optical properties of an easy-to-prepare beveled fiber

Huang

Liu

2023

14th International Photonics and Optoelectronics Meetings (POEM 2022)

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Optical fiber has become a very important optical transmission medium due to its excellent anti-interference ability, longdistance transmission and low loss characteristics, which is widely used in signal transmission, remote sensing, optical imaging fields. In order to obtain the specific image spot shape and size, the research of optical output and imaging performance of fiber is gradually increasing. At present, common optical fibers have weak imaging regulation ability, most of the optical fiber imaging probes mainly use light regulation ability of photonic crystal fiber or add microlens on the fiber end face to realize the regulation of light output and imaging ability, which used to light collimate, light focus and control the wavelength of light. However, photonic crystal fibers have the disadvantages of difficult preparation, high equipment requirements and high cost, the method of adding microlens on the fiber end face will cause the probe to be oversize. Here, we propose a simple-fast and cost-effective preparation method for beveled fiber, which can be prepared by beveling and grinding simply. The beveled angle of fiber is closely related to the incident angle and exit angle of the light, different bevel angles will have a huge impact on the propagation path of light and lead to different degrees of total internal reflection of light on the end face of fiber, which will ultimately affect the shape of image spot. The imaging performance of fiber is simulated and analyzed by Zemax software, results show that the shape of image can be control by changing the beveled angle of fiber end face. The experiments show that the actual effect of beveled fiber is consistent with the simulation results, specific imaging requirements can be met by optimizing beveled angle, which is expected to be combined with optical elements to build a compact optical path.

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Section: Introductionmentioning

confidence: 99%

Research on the optical properties of an easy-to-prepare beveled fiber

Huang

Liu

2023

14th International Photonics and Optoelectronics Meetings (POEM 2022)

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“…In general, ultrafast laser refers to a pulse width of fewer than 10 ps, with several advantages, such as use in multi-material applications, high peak power density, and small heat-affected zone. Because of this, the ultrafast laser plays an important and extensive role in micro and nano-manufacturing [14]. Kim et al [15] reported a novel process to directly inscribe an FZPL on the cleaved facet of a stiff clad polymer fiber using a femtosecond pulsed laser in binary optical devices.…”

Section: Introductionmentioning

confidence: 99%

Investigation of Quadrate Fresnel Zone Plates Fabricated by Femtosecond Laser Direct Writing

et al. 2022

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The circular Fresnel zone plate (FZP) has been extensively used in micro-optics due to its outstanding focusing performance. Despite that, the curved edge of the circular zone has drawbacks limiting its use in terahertz imaging, array generator, and micro/nano-manufacturing. Therefore, a circular structure is not very practical to use. In this paper, Quadrate FZPs were proposed, and diffraction properties of the linear FZP (L-FZP), orthogonal FZP (O-FZP), and square FZP (S-FZP) were studied. Theoretically, the relationship between half side length of S-FZP and the radius of circular FZP is established, and the focal length formula of the S-FZP is derived. The linear and crossline focusing properties of quadrate FZPs were studied experimentally along with simulations. With the addition of blockers and phase shifting, the square and rectangular diffraction patterns were successfully obtained.

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