Branch Details

Physical Engineering and Nanotechnology

Original title in Czech: Fyzikální inženýrství a nanotechnologieFSIAbbreviation: M-FINAcad. year: 2013/2014

Programme: Applied Sciences in Engineering

Length of Study: 2 years

Accredited from: Accredited until: 31.12.2016

Profile

This study program is suitable for absolvent of technically-oriented bachelor study programs with extended education in physics and mathematics. The aim of the program is to prepare students to solve scientific problems from the field of applied physics, construction of scientific instruments and engineering experiments in research laboratories and development centers. The subject of the study program is based on lessons from selected fields of modern physics, applied physics and physical principles of metrology. It also includes courses devoted to different experimental procedures and techniques in selected laboratories and applications of computers for modeling, construction and data analysis.

Key learning outcomes

This study program is suitable for absolvent of technically-oriented bachelor study programs with extended education in physics and mathematics. The aim of the program is to prepare students to solve scientific problems from the field of applied physics, construction of scientific instruments and engineering experiments in research laboratories and development centers. The subject of the study program is based on lessons from selected fields of modern physics, applied physics and physical principles of metrology. It also includes courses devoted to different experimental procedures and techniques in selected laboratories and applications of computers for modeling, construction and data analysis.

Occupational profiles of graduates with examples

The graduates are oriented to the application of optoelectronics in the design of devices and instruments, to qualified usage of optical method in metrology, to the use of new technologies and nanotechnologies and corresponding devices for the surface modification for various purposes, to the use of computers for the design and for scientific calculations. Knowledge of physics and mathematics enables the graduates to work in various engineering areas. During their work on diploma project the students acquire practical experience either in engineering optics or in physics of surfaces and thin films. In engineering optics the student gains theoretical and experimental knowledge of optoelectronics, of sources, propagation and detection of light, of lasers, and of optical elements and systems. He also gets practice in application of general physical principles of measurement and of optical methods and instruments. The study of physics of surfaces and thin films is oriented to technology and analysis of thin films and coatings over materials used in various scientific and industrial disciplines. The student gains theoretical and experimental knowledge of vacuum physics, of sources, optics, and detection of particles. He also gets practice in production of nanostructures and in investigation of their properties. Creative work in modern laboratories is an important part of the study.

Successful and scientifically oriented MSc. graduates in this specialization can continue their studies in the three-years doctoral study programe quot Physical and Material Engineeringquot and acquire the PhD. degree.

Guarantor


Course structure diagram with ECTS credits

1. year of study, winter semester
AbbreviationTitleL.Cr.Com.Compl.Hr. rangeGr.Op.
TAOApplied Opticscs6CompulsoryCr,ExP - 26 / C1 - 12 / C2b - 14yes
TFVPhysical Properties of Materialscs6CompulsoryCr,ExP - 26 / C1 - 26yes
TPEComputers in Experimentscs3CompulsoryGCrP - 13 / P - 13 / CPP - 13 / CPP - 13yes
T1T-ASurface and Thin Films Ien6CompulsoryCr,ExP - 26 / C1 - 26yes
TSIAdvanced Experimental Methods IIcs3CompulsoryGCrC2b - 39yes
TK1Design of Instruments Ics5Compulsory-optionalCr,ExP - 26 / CPP - 261yes
TNINanoelectronicscs6Compulsory-optionalCr,ExP - 26 / C1 - 20 / CPP - 61yes
TNF-ANanophotonics and Plasmonicsen6Compulsory-optionalCr,ExP - 26 / C1 - 20 / CPP - 61yes
TP1Precise Mechanics Ics7Compulsory-optionalCr,ExP - 26 / CPP - 261yes
TEB-AExperimental Biophotonicsen3Elective (voluntary)ColP - 26 / C2b - 13no
TP0Physical Principles of the Semiconductor Technologycs2Elective (voluntary)ColP - 39 / P - 39yes
0F5Semestral Project N Ics3Elective (voluntary)GCrCPP - 26yes
1. year of study, summer semester
AbbreviationTitleL.Cr.Com.Compl.Hr. rangeGr.Op.
TAIAnalysis of Engineering Experimentcs3CompulsoryCr,ExP - 26 / CPP - 13yes
WA1Methods of Structure Analysis Ics4CompulsoryCr,ExP - 39 / C2b - 26yes
TNMNumerical Methods of Image Analysiscs4CompulsoryCr,ExP - 26 / CPP - 26yes
0F6Semestral Project N IIcs5CompulsoryGCrCPP - 65yes
TFOFourier Opticscs4Compulsory-optionalCr,ExP - 26 / C1 - 132yes
TK2Design of Instruments IIcs4Compulsory-optionalColP - 13 / CPP - 262yes
TMTNanostructured Materialscs4Compulsory-optionalColP - 26 / P - 26 / C1 - 10 / C1 - 10 / C2b - 3 / C2b - 32yes
TP2Precise Mechanics IIcs4Compulsory-optionalColP - 13 / CPP - 262yes
TVNStructural and Mechanical Properties of Advanced Materialscs4Compulsory-optionalColP - 26 / P - 26 / C1 - 13 / C1 - 132yes
TFMFourier Methods in Optics and in Structure Analysiscs0Elective (voluntary)CrP - 13 / C1 - 26yes
0PPTIndustrial Project (M-FIN, M-PMO)cs3Elective (voluntary)GCrPX - 120yes
2. year of study, winter semester
AbbreviationTitleL.Cr.Com.Compl.Hr. rangeGr.Op.
TCO-AParticle Opticsen6CompulsoryCr,ExP - 26 / C1 - 26yes
TIOEngineering Opticscs6CompulsoryCr,ExP - 26 / C1 - 14 / C2b - 12yes
TMKMicroscopy and Spectroscopycs5CompulsoryCr,ExP - 26 / C2b - 13yes
TOI-AOptoelectronics and Integrated Opticsen5CompulsoryCr,ExP - 26 / C1 - 13yes
TOJDiploma Project Ics5CompulsoryCrCPP - 65yes
TSDDiploma Seminar I (M-FIN, M-PMO)cs3CompulsoryCrC1 - 26yes
TP0Physical Principles of the Semiconductor Technologycs2Elective (voluntary)ColP - 39 / P - 39yes
TPEComputers in Experimentscs3Elective (voluntary)GCrP - 13 / P - 13 / CPP - 13 / CPP - 13yes
0F7Semestral Project N IIIcs3Elective (voluntary)GCrCPP - 26yes
2. year of study, summer semester
AbbreviationTitleL.Cr.Com.Compl.Hr. rangeGr.Op.
TPJDiploma Project (M-FIN, M-PMO)cs20CompulsoryCrVD - 156 / CPP - 52yes
TSRDiploma Seminar II (M-FIN, M-PMO)cs3CompulsoryCrC1 - 13yes
TSNSpecialised Seminarcs3CompulsoryCrC1 - 26yes
TDNDiagnostics of Nanostructurescs4Compulsory-optionalColP - 13 / C1 - 14 / CPP - 6 / C2b - 61yes
TMTNanostructured Materialscs4Compulsory-optionalColP - 26 / P - 26 / C1 - 10 / C1 - 10 / C2b - 3 / C2b - 31yes
TVNStructural and Mechanical Properties of Advanced Materialscs4Compulsory-optionalColP - 26 / P - 26 / C1 - 13 / C1 - 131yes
TOVTechnology of Optical Productioncs4Compulsory-optionalColP - 13 / C2b - 261yes
2. year of study, both semester
AbbreviationTitleL.Cr.Com.Compl.Hr. rangeGr.Op.
7AZEnglish - Exam B1en0CompulsoryExZ - 1yes
All the groups of optional courses
Gr. Number of ECTS credits Number of courses Courses
2 is not being checked 2 TFO, TK2, TMT, TP2, TVN
1 12 cr is not being checked TK1 (5 cr), TNI (6 cr), TNF-A (6 cr), TP1 (7 cr)
1 is not being checked 1 TDN, TMT, TVN, TOV