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1. Intensity profiles (a) of a Gaussian beam, (b) top-hat beam, (c

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1. Intensity profiles (a) of a Gaussian beam, (b) top-hat beam, (c
Why Use a Flat Top Laser Beam?

Why Use a Flat Top Laser Beam?

Materials, Free Full-Text

Materials, Free Full-Text

Frontiers High-power Er:Y2O3 ceramic laser with an optical vortex beam output at ∼ 2.7 μm

Frontiers High-power Er:Y2O3 ceramic laser with an optical vortex beam output at ∼ 2.7 μm

PDF] Laserscribing of Thin Films Using Top-Hat Laser Beam Profiles

PDF] Laserscribing of Thin Films Using Top-Hat Laser Beam Profiles

Radial intensity distributions for the top-hat and Gaussian profiles

Radial intensity distributions for the top-hat and Gaussian profiles

How to design a Gaussian to Top Hat beam shaper – Knowledgebase

How to design a Gaussian to Top Hat beam shaper – Knowledgebase

A Fast Interferometric Beam Shaper for Multi-Emitter 3D MINFLUX

A Fast Interferometric Beam Shaper for Multi-Emitter 3D MINFLUX

Temperature rise inside the sample as obtained with a Gaussian, an

Temperature rise inside the sample as obtained with a Gaussian, an

Efficient 2D molasses cooling of a cesium beam using a blue detuned top-hat beam

Efficient 2D molasses cooling of a cesium beam using a blue detuned top-hat beam

Utilization of the high spatial-frequency component in adaptive beam shaping by using a virtual diagonal phase grating

Utilization of the high spatial-frequency component in adaptive beam shaping by using a virtual diagonal phase grating

Laser intensity profile as a means to steer microstructure of deposited tracks in Directed Energy Deposition - ScienceDirect

Laser intensity profile as a means to steer microstructure of deposited tracks in Directed Energy Deposition - ScienceDirect

Demonstration of flat-top beam illumination in widefield multiphoton microscopy

Demonstration of flat-top beam illumination in widefield multiphoton microscopy

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