Plasma Focused Ion Beam: Applications and Techniques

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Physical Vapor Deposition: Basics and Applications

Explores Physical Vapor Deposition techniques, including vapor creation and flux towards the substrate in micro and nanofabrication.

Optical Microscopy: Techniques and Applications

Explores optical microscopy techniques, dimension measurements, surface profiling, electrical characterization of MEMS, and advanced microscopy techniques.

Gas Transport and Film Growth Rate

Covers mass transport in the boundary layer, gas transfer to the substrate, film growth rate calculation, and experimental results.

Thin-Film Processing: Deposition Techniques

Explores thin-film processing techniques, focusing on chemical vapor deposition advantages, growth modes, ALD, plasma role, and discharge initiation.

Film Growth: Growth Modes and Crystal Structure

Explores growth modes in film growth and crystal structure determination based on materials used.

Scanning Electron Microscopy: Fundamentals and Applications

Covers the fundamentals of scanning electron microscopy, including electron matter interaction, imaging techniques, and related advanced topics.

Micro/Nanomechanical Devices: Fabrication Techniques

Explores the fabrication of micro/nanomechanical devices, covering release, selectivity, stiction, deposition, etching, lithography, and growth techniques.

SEM Basics: Imaging Parameters

Explores SEM basics, including imaging parameters, signal generation, and challenges.

Micro and Nanofabrication for Optomechanics

Explores the importance of micro- and nanofabrication in optomechanics, covering key processes and challenges in device fabrication.

Thin-Film Processing: Plasma Deposition

Explores plasma-enhanced chemical vapor deposition for thin-film processing and its impact on film properties and material quality.