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Optical Drills by Dynamic High-Order Bessel Beam Mixing

Gabrielius Kontenis, Darius Gailevičius, Nóe Jiménez, Kęstutis Staliūnas

2022Physical Review Applied21 citationsDOIOpen Access PDF

Abstract

One of the key trends in laser material processing is the usage of structured laser beams. Collimated and focused Gaussian beams are the most common tools; however, more exotic beams can be beneficial too. For instance, Bessel beams with elongated focal area and self-healing properties, or vortex beams with helical wave fronts and a dark area along the optical axis are being increasingly used. Here, we propose and experimentally demonstrate dynamical ``optical drill'' beams presenting nonstationary intensity distributions that resemble a spinning mechanical drill. Optical drills appear as the spatiotemporal interference of two Bessel-vortex beams of different topological charges and different carrier frequencies. By mixing a pair of high-order Bessel beams, synthesized using a liquid crystal spatial light modulator, optical drills of tuned helicities are experimentally observed, and the simplest cases of matter processing (fluorescence) with such beams are demonstrated. Optical drill beams are expected to be useful in material processing by light or in cell and particle manipulation in biomedical applications.

Topics & Concepts

OpticsBessel beamBessel functionOptical vortexBeam (structure)Spatial light modulatorCollimated lightGaussian beamMixing (physics)Optical tweezersPhysicsLaserOptical fiberInterference (communication)VortexDrillLight beamMaterials scienceComputer scienceTelecommunicationsMechanicsQuantum mechanicsMetallurgyChannel (broadcasting)Orbital Angular Momentum in OpticsPlant Reproductive BiologyNear-Field Optical Microscopy
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