Michal Zientek scite author profile

Michal Zientek

3Publications

54Citation Statements Received

44Citation Statements Given

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Hilti (Liechtenstein), IBM Research - Zurich, ETH Zurich

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Control of the interaction strength of photonic molecules by nanometer precise 3D fabrication

Rawlings

Zientek

Spieser

et al. 2017

Sci Rep

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Applications for high resolution 3D profiles, so-called grayscale lithography, exist in diverse fields such as optics, nanofluidics and tribology. All of them require the fabrication of patterns with reliable absolute patterning depth independent of the substrate location and target materials. Here we present a complete patterning and pattern-transfer solution based on thermal scanning probe lithography (t-SPL) and dry etching. We demonstrate the fabrication of 3D profiles in silicon and silicon oxide with nanometer scale accuracy of absolute depth levels. An accuracy of less than 1nm standard deviation in t-SPL is achieved by providing an accurate physical model of the writing process to a model-based implementation of a closed-loop lithography process. For transfering the pattern to a target substrate we optimized the etch process and demonstrate linear amplification of grayscale patterns into silicon and silicon oxide with amplification ratios of ∼6 and ∼1, respectively. The performance of the entire process is demonstrated by manufacturing photonic molecules of desired interaction strength. Excellent agreement of fabricated and simulated structures has been achieved.

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Panel with self-tuning shunted piezoelectric patches for broadband flexural vibration control

Gardonio

Zientek

2019

Mechanical Systems and Signal Processing

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Closed-loop high-speed 3D thermal probe nanolithography

Knoll

Zientek

Cheong

et al. 2014

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Michal Zientek

Control of the interaction strength of photonic molecules by nanometer precise 3D fabrication

Panel with self-tuning shunted piezoelectric patches for broadband flexural vibration control

Closed-loop high-speed 3D thermal probe nanolithography

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