FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4306403715> ?p ?o ?g. }

• W4306403715 endingPage "108766" @default.
• W4306403715 startingPage "108766" @default.
• W4306403715 abstract "• Ultrafast laser direct drilling of glass is comprehensively studied by experiments. • The drilling self-termination mechanism is discovered and experimentally verified. • Channels are directly drilled with depth over 2000 μm and aspect ratio over 35:1. • Uniform and taper-free channels with outstanding sidewall quality are achieved. • Combined influences of laser fluences and drilling speeds on drilling are analyzed. Ultrafast lasers have attracted extensive interests for their capability in drilling microchannels in transparent materials. However, direct drilling by ultrafast laser has been believed insufficient to achieve satisfactory aspect ratio. Moreover, the underlying mechanism of self-termination in drilling is still unclear. We present a comprehensive study on direct drilling of fused silica by ultrafast laser (190 fs) with different sample moving speeds (20–500 μm/s) and laser fluences (244.8–1958.5 J/cm 2 ). We demonstrate the feasibility of drilling uniform and taper-free channels longer than 2000 μm, with an aspect ratio of ∼35:1 and decent sidewall roughness of ∼0.66 μm. The dependences of the channel aspect ratio and quality on sample moving speeds and laser fluences are demonstrated, and optimal speeds are found to increase with laser fluences. We propose and testify new mechanisms of early termination in drilling at nonoptimal sample moving speeds. Insufficient laser energy density causes drilling to end prematurely at high sample/beam moving speeds. When the moving speed is too low, excessive laser energy deposition leads to a nontransparent region above the channel, which blocks the laser beam and halts the drilling process. This work highlights the capability of ultrafast lasers to directly drill channels with satisfactory aspect ratios in transparent materials and unveils new drilling self-termination mechanisms." @default.
• W4306403715 created "2022-10-17" @default.
• W4306403715 creator A5022526082 @default.
• W4306403715 creator A5046846877 @default.
• W4306403715 date "2023-01-01" @default.
• W4306403715 modified "2023-09-27" @default.
• W4306403715 title "Ultrafast laser direct drilling of high aspect ratio microchannels in fused silica: Insights on channel self-termination mechanisms" @default.
• W4306403715 cites W1963864733 @default.
• W4306403715 cites W1973370070 @default.
• W4306403715 cites W1995289135 @default.
• W4306403715 cites W1997368721 @default.
• W4306403715 cites W2004925863 @default.
• W4306403715 cites W2015595284 @default.
• W4306403715 cites W2033546837 @default.
• W4306403715 cites W2034194544 @default.
• W4306403715 cites W2038509530 @default.
• W4306403715 cites W2040199696 @default.
• W4306403715 cites W2048659379 @default.
• W4306403715 cites W2074363735 @default.
• W4306403715 cites W2086187432 @default.
• W4306403715 cites W2110827969 @default.
• W4306403715 cites W2112980483 @default.
• W4306403715 cites W2114665955 @default.
• W4306403715 cites W2750789725 @default.
• W4306403715 cites W2775956838 @default.
• W4306403715 cites W2891074457 @default.
• W4306403715 cites W2899002402 @default.
• W4306403715 cites W2929163922 @default.
• W4306403715 cites W3027258430 @default.
• W4306403715 cites W3119948131 @default.
• W4306403715 cites W3164801234 @default.
• W4306403715 cites W3198390618 @default.
• W4306403715 cites W3202332154 @default.
• W4306403715 cites W4205721765 @default.
• W4306403715 cites W4224325596 @default.
• W4306403715 doi "https://doi.org/10.1016/j.optlastec.2022.108766" @default.
• W4306403715 hasPublicationYear "2023" @default.
• W4306403715 type Work @default.
• W4306403715 citedByCount "1" @default.
• W4306403715 countsByYear W43064037152023 @default.
• W4306403715 crossrefType "journal-article" @default.
• W4306403715 hasAuthorship W4306403715A5022526082 @default.
• W4306403715 hasAuthorship W4306403715A5046846877 @default.
• W4306403715 hasConcept C120665830 @default.
• W4306403715 hasConcept C121332964 @default.
• W4306403715 hasConcept C127162648 @default.
• W4306403715 hasConcept C178596936 @default.
• W4306403715 hasConcept C192562407 @default.
• W4306403715 hasConcept C31258907 @default.
• W4306403715 hasConcept C41008148 @default.
• W4306403715 hasConcept C49040817 @default.
• W4306403715 hasConcept C520434653 @default.
• W4306403715 hasConcept C82558694 @default.
• W4306403715 hasConceptScore W4306403715C120665830 @default.
• W4306403715 hasConceptScore W4306403715C121332964 @default.
• W4306403715 hasConceptScore W4306403715C127162648 @default.
• W4306403715 hasConceptScore W4306403715C178596936 @default.
• W4306403715 hasConceptScore W4306403715C192562407 @default.
• W4306403715 hasConceptScore W4306403715C31258907 @default.
• W4306403715 hasConceptScore W4306403715C41008148 @default.
• W4306403715 hasConceptScore W4306403715C49040817 @default.
• W4306403715 hasConceptScore W4306403715C520434653 @default.
• W4306403715 hasConceptScore W4306403715C82558694 @default.
• W4306403715 hasFunder F4320306076 @default.
• W4306403715 hasLocation W43064037151 @default.
• W4306403715 hasOpenAccess W4306403715 @default.
• W4306403715 hasPrimaryLocation W43064037151 @default.
• W4306403715 hasRelatedWork W1968766414 @default.
• W4306403715 hasRelatedWork W2038195161 @default.
• W4306403715 hasRelatedWork W2066877495 @default.
• W4306403715 hasRelatedWork W2198860993 @default.
• W4306403715 hasRelatedWork W2399563075 @default.
• W4306403715 hasRelatedWork W2776495777 @default.
• W4306403715 hasRelatedWork W2896084745 @default.
• W4306403715 hasRelatedWork W2944384546 @default.
• W4306403715 hasRelatedWork W2972306852 @default.
• W4306403715 hasRelatedWork W2993635561 @default.
• W4306403715 hasVolume "157" @default.
• W4306403715 isParatext "false" @default.
• W4306403715 isRetracted "false" @default.
• W4306403715 workType "article" @default.