Litcius/Paper detail

Stealth dicing of 1-mm-thick glass with aberration-free axial multi-focus beams

Huaizhi Zhang, Jiaming Xu, Hengyang Li, Yu Xiao, Wei Cheng, Xiahui Tang, Yingxiong Qin

2022Optics Letters19 citationsDOI

Abstract

Laser stealth dicing can realize material separation with negligible surface damage, but severe aberrations in thick materials degrade processing quality. This Letter presents a nonlinear point-to-point transformation method combined with spherical aberration compensation to achieve aberration-free axial multi-focus beams. The focus peak intensity increases 7 times at a depth of 0.5 mm after spherical aberration compensation, and reaches 44 times at 3.5 mm. Spherical aberration compensation experiments showed that the width of the heat-affected zone remains almost unchanged at different depths inside the glass, and stealth dicing experiments for 1-mm-thick glass demonstrated that aberration-free 1-focus, 2-foci, and 3-foci stealth dicing can be successfully realized.

Topics & Concepts

Wafer dicingOpticsSpherical aberrationMaterials scienceFocus (optics)Compensation (psychology)Depth of focus (tectonics)WavefrontOptoelectronicsPhysicsSubductionLens (geology)BiologyWaferTectonicsPsychologyPsychoanalysisPaleontologyLaser Material Processing TechniquesOptical Coherence Tomography ApplicationsNonlinear Optical Materials Studies