MHz burst mode processing as a tool for achieving removal rates scalability in ultrashort laser micro-machining

Le, Hoang; Karkantonis, Themistoklis; Nasrollahi, Vahid; Penchev, Pavel; Dimov, Stefan Simeonov

doi:10.1007/s00339-022-05864-8

Cited by 6 publications

(3 citation statements)

References 48 publications

(50 reference statements)

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“…The decrease of the ablation thresholds for both materials with an increasing number of intra-burst pulses is attributed to the incubation effect [29,50,51]. This phenomena is ascribed to the accumulation of laser-induced chemical and structural changes as well as plastic deformation of the substrate as a result of thermal stress fields [52,53].…”

Section: Ablation Thresholdmentioning

confidence: 90%

“…Consequently, the arising laser pulse energies of up to some 100 μJ lead to a laser fluence that is significantly above the well-known optimum for maximizing the ablation efficiency and rate [24]. For scaling the laser pulse energies closer to the optimum ablation efficiency, so-called laser burst mode can be used to split a laser pulse into at least two and typically up to a few hundred intra-burst pulses with a temporal intra-burst interval in the nanosecond regime [24][25][26][27][28][29][30][31].…”

Section: Introductionmentioning

confidence: 99%

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Picosecond laser microvia drilling of ABF material using MHz burst mode

Franz,

Häfner,

Bischoff

et al. 2023

Mater. Res. Express

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We report on a comprehensive study of laser percussion microvia drilling of Ajinomoto build-up film (ABF) material using an ultrashort pulsed laser in MHz burst mode. After laser processing, microvia drilling quality is being evaluated by the fabricated diameter and taper using laser scanning microscopy and metallography. The influences of the incubation effect, heat accumulation and shielding effects as a result of pulse to pulse interactions are being discussed on the ablation threshold, penetration depth and laser microvia drilling quality. We find that an increasing heat accumulation in MHz burst mode processing is responsible for the void formation and delamination of the insulating ABF layer. Therefore, the parameter clearance is introduced to evaluate these effects on the microvia sidewalls. For a comparable clearance, applying 2 intra-burst pulses achieves an average reduced taper of down to 19.5% compared to single pulse mode. At the same time, a reduced laser drilling time of 16.7% per microvia highlights the enormous potential of the MHz burst mode for laser drilling of ABF material in printed circuit board fabrication.

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Section: Ablation Thresholdmentioning

confidence: 90%

Section: Introductionmentioning

confidence: 99%

Picosecond laser microvia drilling of ABF material using MHz burst mode

Franz,

Häfner,

Bischoff

et al. 2023

Mater. Res. Express

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“…In this work we characterize for the first time the delay dependence for the NSM, which immediately opens new applications to the method. We will illustrate the implementation of the delay terms in the electrical analogy through the employment of a first order delay equation, the Hutchinson's model, and we will apply the approach to two practical examples of interest: (a) adsorption kinetics with time delay, extendable to the oscillatory molecular adsorption patterns in proteins [3], and (b) modeling of pulse width in quantum dot mode-locked lasers (QDMLLs), essential for communication, medical, micromachining and military applications, among others [18][19][20][21][22]. Additionally, we will compare the results with those obtained with software Mathematica [23], showing that they are orders of magnitude faster.…”

Section: Introductionmentioning

confidence: 99%

A new Network Simulation Method for the characterization of delay differential equations

Garratón

García-Onsurbe

Soto-Meca

2023

Ain Shams Engineering Journal

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Investigation of Ablation Efficiency of Stainless Steel Using Pulsed Lasers in Burst Mode

2023

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Due to its high corrosion resistance and mechanical properties, stainless steel is commonly used in various industrial applications. Although different types of stainless steel are similar in their chemical composition, they can differ significantly in their thermal diffusivity. This property is relevant in the ability of a material to conduct heat and thus, in laser processing. In this frame, this study compares the ablation efficiency and characteristics of polished stainless steel samples of the alloys AISI 304, AISI 420, and AISI 316Ti. They are irradiated with single ultrashort pulses having pulse durations between 250 fs and 10 ps as well as using GHz burst modii. The goal is to investigate the differences in both the ablation threshold and the ablation rate to improve the ablation efficiency. The results show that shorter pulse durations lead to a more efficient ablation process. On the other hand, GHz bursts are found to be, in general, less efficient. In addition, there is a significant difference in the surface morphology depending on the process parameters. The differences in the thermal diffusivity do not significantly influence the ablation threshold fluence but surface morphology and the ablation rate.

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MHz burst mode processing as a tool for achieving removal rates scalability in ultrashort laser micro-machining

Cited by 6 publications

References 48 publications

Picosecond laser microvia drilling of ABF material using MHz burst mode

Picosecond laser microvia drilling of ABF material using MHz burst mode

A new Network Simulation Method for the characterization of delay differential equations

Investigation of Ablation Efficiency of Stainless Steel Using Pulsed Lasers in Burst Mode

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