Best PhD Programs in Kaunas in Lithuania 2019
A Master is a degree that demonstrates students have completed advanced studies in their field of training. This program is available for students with an undergraduate degree, and it often takes one to two years to complete.
Kaunas has been famous for its cultural heritage and academic value. Educational institutions in the city, such as Vytautas Magnus University, Lithuanian University of Health Sciences, and Aleksandras Stulginskis University have been empowering human capital with quality education since years.
PhDs in Kaunas in Lithuania
KTU and the University of Southern Denmark (Denmark) joint doctoral programme in the field of physics provides competencies and knowledge in the areas of condensed matter, interaction of radiation and matter, optical spectroscopy; the programme offers a wide range of topics and general experimental and theoretical research in the areas of meso, micro and nanostructures, photonic structures, including their formation, analysis and application in plasmonics, biosensors and alternative energy.
Electrical and electronic engineering is one of the widest research fields. There are no sectors in industry or science which could develop without innovative electronic solutions. Investigations during doctoral studies are carried out in the fields of ultrasonic measurements and diagnostics in aviation; and energy generation and supply systems; and in other industrial sectors, applications of electronic solutions in biomedicine, monitoring and control systems for various economic and transportation facilities, including signal processing and imaging. Investigations are conducted using modern research tools and instruments in the ‘Santaka’ scientific valley.
According to the classification of scientific fields, the concept of material engineering involves all works in the field of material science and material technologies. It is quite a wide totality of scientific problems, involving various issues of the research of materials aiming to improve the present properties of materials, create new materials and obtain information about properties of materials that have not been researched yet (the issues of materials science), as well as works of technological nature aiming to create more efficient methods for production of materials (it is an object of technology). Thus, material engineering can be comprehended as the area involving two inevitably related components: fundamental scientific research and practical engineering.