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Working principle of the Shaper. The collimated Gaussian beam is

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Working principle of the Shaper. The collimated Gaussian beam is
Gintas SLEKYS, Consultant

Gintas SLEKYS, Consultant

Results of thin-film ablation using a femtosecond laser. The spot

Results of thin-film ablation using a femtosecond laser. The spot

Photograph of the ECSMM cell with graphite anode, tool and work

Photograph of the ECSMM cell with graphite anode, tool and work

Working principle of the Shaper. The collimated Gaussian beam is

Working principle of the Shaper. The collimated Gaussian beam is

Figür 5. Ön kazıyıcı örnekleri (Çizimler Aydın 2010'dan yeniden

Figür 5. Ön kazıyıcı örnekleri (Çizimler Aydın 2010'dan yeniden

Working principle of the Shaper. The collimated Gaussian beam is

Working principle of the Shaper. The collimated Gaussian beam is

Losses of (a) Micromacnined circuit vs. (b) Milled circuit

Losses of (a) Micromacnined circuit vs. (b) Milled circuit

Alexander LASKIN, Project Manager, PhD, Beam Shaping

Alexander LASKIN, Project Manager, PhD, Beam Shaping

a) Overview of assembly of the micromachined horn. (b) Details ofa

a) Overview of assembly of the micromachined horn. (b) Details ofa

Alexander LASKIN, Project Manager, PhD, Beam Shaping

Alexander LASKIN, Project Manager, PhD, Beam Shaping

Working principle of the Shaper. The collimated Gaussian beam is

Working principle of the Shaper. The collimated Gaussian beam is

Figür 5. Ön kazıyıcı örnekleri (Çizimler Aydın 2010'dan yeniden

Figür 5. Ön kazıyıcı örnekleri (Çizimler Aydın 2010'dan yeniden

Gintas SLEKYS, Consultant

Gintas SLEKYS, Consultant

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