Provide the theoretical foundations and the experimental practice of microscopic techniques with particular reference to optical, electronic and probe microscopy.
teacher profile teaching materials
Light optics. Fundamentals of optical microscopy. Resolution, contrast and magnification. The components of an optical microscope. Image formation. Reflection microscopy. Phase contrast. Bright field and dark field. Polarization.
Principles of operation of scanning electron microscopy (SEM). Components of a SEM. Sample-probe interaction. Detection of secondary and backscattered electrons. Use of the SEM.
Principles of operation and components of a scanning probe microscope (SPM). Tunnel effect microscopy (STM). Atomic force microscopy (AFM). AFM in contact. AFM in no contact. Secondary scanning techniques. Resolution and artifacts.
Introduction to 2D and 3D image analysis, improvement of image quality with and without the use of kernel, segmentation, binarization and quantitative image analysis with open-access software.
Fundamentals of Light Microscopy and Electronic Imaging. D. B. Murphy , M. W. Davidson. J. Wiley & Sons
Scanning Microscopy for Nanotechnology, W. Zhou and Z. L. Wang. Springer
Programme
Eye and perception. History of microscopy.Light optics. Fundamentals of optical microscopy. Resolution, contrast and magnification. The components of an optical microscope. Image formation. Reflection microscopy. Phase contrast. Bright field and dark field. Polarization.
Principles of operation of scanning electron microscopy (SEM). Components of a SEM. Sample-probe interaction. Detection of secondary and backscattered electrons. Use of the SEM.
Principles of operation and components of a scanning probe microscope (SPM). Tunnel effect microscopy (STM). Atomic force microscopy (AFM). AFM in contact. AFM in no contact. Secondary scanning techniques. Resolution and artifacts.
Introduction to 2D and 3D image analysis, improvement of image quality with and without the use of kernel, segmentation, binarization and quantitative image analysis with open-access software.
Core Documentation
Notes based on the slides used during the lectures.Fundamentals of Light Microscopy and Electronic Imaging. D. B. Murphy , M. W. Davidson. J. Wiley & Sons
Scanning Microscopy for Nanotechnology, W. Zhou and Z. L. Wang. Springer
Type of delivery of the course
Lecturing in the classroom with video-aided projection of slides and laboratory practical classes. The lab classes comprise "hands on " sessions on dedicated microscopesType of evaluation
final oral examination teacher profile teaching materials
Fundamentals of optical microscopy, reflection microscopy, metallography, transmission microscopy, use of polarized light.
Operating principles of electron microscopy, SEM, TEM, EDX. Use of SEM: detection of secondary and backscattered electrons, capture and morphometric analysis of images.
Programme
Historical background of microscopy, concept of resolution and Rayleigh limit, overview of microscopy techniques and use in different research fields.Fundamentals of optical microscopy, reflection microscopy, metallography, transmission microscopy, use of polarized light.
Operating principles of electron microscopy, SEM, TEM, EDX. Use of SEM: detection of secondary and backscattered electrons, capture and morphometric analysis of images.
Core Documentation
notes provided by the professor based on the slides used during the lecturesType of delivery of the course
Lecturing in the classroom with video-aided projection of slides and laboratory practical classes. The lab classes comprise "hands on " sessions on dedicated microscopesType of evaluation
final oral examination