Journal ArticleDOI
Axicon on a gradient index lens (AXIGRIN): integrated optical bench for Bessel beam generation from a point-like source
TLDR
A novel concept of a compact optical component aimed at transforming a point-like source into a Bessel beam, called AXIGRIN, consists of an axicon fabricated at the end facet of a gradient index lens that can be directly coupled to an optical fiber, a microscope objective, or vertical-external-cavity surface-emitting-laser to be used without preliminary adjustments.Abstract:
We propose and demonstrate a novel concept of a compact optical component aimed at transforming a point-like source into a Bessel beam. This component, called AXIGRIN, consists of an axicon fabricated at the end facet of a gradient index lens. It can be directly coupled to an optical fiber, a microscope objective, or vertical-external-cavity surface-emitting-laser to be used without preliminary adjustments, which is of practical interest for end users. This opens new avenues in domains, such as imaging, particle acceleration and manipulation, optical coherence tomography, data storage, laser cutting, etc. AXIGRIN also opens the perspective of using Bessel beams for endoscopy. The generation of linearly and radially polarized Bessel beams is demonstrated with a fiber AXIGRIN.read more
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Patent
Integrated optical system and components utilizing tunable optical sources and coherent detection and phased array for imaging, ranging, sensing, communications and other applications
TL;DR: In this article, an integrated optical system is configured such that when the optical source is tuned in optical frequency, the receiver produces electrical signals that are processed to produce optical profile information about the sample.
Journal ArticleDOI
Optical pulling forces and their applications
Hang Li,Yongyin Cao,Lei-Ming Zhou,Xiaohao Xu,Tongtong Zhu,Yuzhi Shi,Cheng-Wei Qiu,Weiqiang Ding +7 more
TL;DR: In this paper, a general introduction to optical forces, related theories, and methods is presented, along with a review of the progresses achieved in optical pulling forces using different mechanisms and configurations.
Journal ArticleDOI
A Broadband Bessel Beam Launcher Using Metamaterial Lens
TL;DR: Full-wave simulation and experiment results have proved that the generated Bessel beams can be maintained in distance larger than 1 meter within a ranging from 12 GHz to 18 GHz.
Journal ArticleDOI
Photonic tractor beams: a review
TL;DR: In this article, the authors classify the mechanisms to achieve an optical tractor beam into four different kinds according to the dominant factors: tailoring the incident beam, engineering the object's optical parameters, designing the structured material background, and utilizing the indirect photophoretic force, which is related to the thermal effect of light absorption.
Journal ArticleDOI
Modern Types of Axicons: New Functions and Applications.
TL;DR: In this paper, four different and special approaches for creating nondiffracting beams in axicons are compared: Diffractive axicons, meta-axicons-flat optics, spatial light modulators, and photonic integrated circuit-based axicons.
References
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Journal ArticleDOI
Diffraction-free beams.
TL;DR: The first experimental investigation of nondiffracting beams, with beam spots as small as a few wavelengths, can exist and propagate in free space, is reported.
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Exact solutions for nondiffracting beams. I. The scalar theory
TL;DR: In this paper, exact nonsingular solutions of the scalar-wave equation for beams that are non-diffracting were presented, which means that the intensity pattern in a transverse plane is unaltered by propagating in free space.
Journal ArticleDOI
Rapid three-dimensional isotropic imaging of living cells using Bessel beam plane illumination
Thomas A. Planchon,Liang Gao,Daniel E. Milkie,Michael W. Davidson,James A. Galbraith,Catherine G. Galbraith,Eric Betzig +6 more
TL;DR: Scanned Bessel beams are used in conjunction with structured illumination and/or two-photon excitation to create thinner light sheets better suited to three-dimensional (3D) subcellular imaging.
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Simultaneous micromanipulation in multiple planes using a self-reconstructing light beam
TL;DR: Bessel beams do not diverge and, furthermore, if part of the beam is obstructed or distorted the beam reconstructs itself after a characteristic propagation distance, which may be utilized within optical tweezers to trap particles in multiple, spatially separated sample cells with a single beam.