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- Introduction to quantum theory of identical particle systems

- Special Mathematics Chapters

- Introduction to physics of mesoscopic systems

- Linear response phenomena

- Transport phenomena in disordered materials

- Methods for modeling electronic and optoelectronic devices

- Crystal growth techniques

- Nanostructures with applicability in electronics, optoelectronics, sensory and bio-electrochemistry

- Techniques for measuring optical and semiconductor coefficients

- Physics and thin film technology

- Optical non-linear phenomena

- Physics of dielectrics

- Optoelectronic properties of liquid crystals and thin film films. Technological applications.

- Interface phenomena in polymer structures. Nanotechnologies and applications.

- Computational methods in the theory of electronic structure of materials

- Advanced numerical methods in the physics of multiple particle systems

- Electronic devices and special optoelectronics

- Physics of semiconductor devices

- Phase transitions in condensed matter

- Advanced parallel computing methods

- Virtual Instrumentation and Data Acquisition

Program taught in:
Last updated March 24, 2018
This course is
Start Date
Sept. 2019
2 years
By locations
By date
Start Date
Sept. 2019
End Date
Application deadline

Sept. 2019

Application deadline
End Date