This course is offered through the Msc. Biomedical Optics programe. The course outline is:
• Propagation of optical radiation in tissues
• Skin optics
•...
program consists of a series of activities in the classroom, in the laboratory and in various settings outside of ASU that are designed to take bright, bro...
• Basic overview of cell biology.
• Imaging
• Lab on a chip, Microfluidics, Microarrays, Optical trapping and manipulation, Sorting of cells.
• Interacti...
Borrow nature's design principles to create new supramolecular block for biomedical applications; Address state-of-art protein engineering, bio-mimic sel...
Course Description:
Biophotonics is rapidly emerging as a powerful, versatile and interdisciplinary new field at the interface between photonics and the bi...
Topics include wide-field techniques, linear and nonlinear laser scanning microscopy, fundamentals of geometrical and physical optics, optical image format...
This course allows students, who possess a bachelor degree, to specialise in the exciting new fields of optical technologies. The general field of optical te...
In this course students learn about basic physics of light-biomatter interactions and tissue optics. With this background they will embark on practical issu...
• Types of laser systems
• Operation of laser systems
• Role of laser systems in biomedical applications
• Student clinical reading of articles and presen...
This course provides students with an understanding of current research in biomedical optics. Topics include: fundamental theoretical principles of tissue ...
This course treats "Tissue Optics", how light propagates in scattering and absorbing media such as biological tissue. The basics of radiometry are introduced...
• Resonances and refractive index of dielectrics
• Metal nanoparticle plasmons
• Surface plasmon polaritons
• Photonic crystals
• Local density of states...
The IIB will hold the next summer school from August, 12th to 17th 2007 at the Station Hombroich in Neuss, Germany. The topics of 2007 are concerned with Med...
Biomedical optics technology; basic engineering principles used in developing therapeutic and diagnostic devices; a series of hands-on labs will be perfo...
• Fundamentals of Molecular Self-Assembly, Interfacial Phenomena, and Supramolecular Chemistry
• Nanomaterials and their Applications
• Specialized Techniq...
This course is offered through the following Master's program: Molecular Nano- and Biophotonics for Telecommunications and Biotechnologies (MONABIPHOT)
Th...
Topics: Topics discussed in the course will include:
• Principles of lasers and optics
• Tissue optical properties
• Optical aspects of light-tissue inte...
Optional Specialization in Biophotonics: Requires BME135, BME136, and either BME137 or EECS180. These courses also satisfy the Engineering Electives requirement
• Current imaging technology in biological systems using multiphoton fluorophors and upconverting phosphors
• optical coherence tomography, nearfield scann...
Basic physics and chemistry for the interaction of photons with matter, including both biological and synthetic materials; use of photonic radiation pressu...
The course is offered through Msc. Biomedical Optics. The course outline is:
• Basic designs of medical lasers and radiation delivery devices
• General ...
This course is offered through the following master's program: Molecular Nano- and Biophotonics for Telecommunications and Biotechnologies (MONABIPHOT)
In...