study programme

Physical Engineering and Nanotechnology

Original title in Czech: Fyzikální inženýrství a nanotechnologieFaculty: FMEAbbreviation: D-FIN-KAcad. year: 2022/2023

Type of study programme: Doctoral

Study programme code: P0719D110004

Degree awarded: Ph.D.

Language of instruction: Czech

Accreditation: 16.10.2020 - 16.10.2030

Mode of study

Combined study

Standard study length

4 years

Programme supervisor

Doctoral Board

Chairman :
prof. RNDr. Tomáš Šikola, CSc.
Councillor internal :
prof. RNDr. Petr Dub, CSc.
prof. RNDr. Radim Chmelík, Ph.D.
prof. Ing. Ivan Křupka, Ph.D.
prof. RNDr. Pavel Šandera, CSc.
Councillor external :
RNDr. Antonín Fejfar, CSc. (Fyzikální ústav AV ČR, v.v.i.)
prof. Mgr. Dominik Munzar, Dr. (Ústav kondenzovaných látek, PřF Masarykovy univerzity)
prof. RNDr. Pavel Zemánek, Ph.D. (Ústav přístrojové techniky AV ČR, v.v.i.)

Fields of education

Area Topic Share [%]
Physics Without thematic area 100

Study aims

The aim of the doctoral study in the proposed programme is to prepare highly educated experts in the field of physical engineering and nanotechnology with sufficient foreign experience, who will be able to perform independent creative, scientific and research activities in academia or applications in our country and abroad. The study is based on the doctoral students' own creative and research work at the level standardly required at foreign workplaces in the areas of research carried out at the training workplace and supported by national and international projects. These are the following areas of applied physics: physics of surfaces and nanostructures, light and particle optics and microscopy, construction of physical instruments and equipment, micromechanics of materials.

Graduate profile

The graduate has knowledge, skills and competencies for their own creative activities in some of the areas in which the research activities of the training workplace are carried out. These are applications of physics especially in the field of physics of surfaces and nanostructures, two-dimensional materials, nanoelectronics, nanophotonics, micromagnetism and spintronics, biophotonics, advanced light microscopy and spectroscopy, electron microscopy, laser nanometrology and spectroscopy, computer controlled X-ray micro and nanotomography, micro and development of technological and analytical equipment and methods for micro/nanotechnologies. The possibility of using the personnel and material background provided by the CEITEC research infrastructure as well as extensive cooperation with important foreign workplaces contributes to the high level of education. This guarantees that the graduate is able to present the results of their work orally and in writing and discuss them in English. Due to high professional competencies and flexibility, graduates find employment both in universities and other research institutions in our country and abroad, and in high-tech companies in the positions of researchers, developers, designers or team leaders.

Profession characteristics

Due to their high professional competencies and flexibility, graduates find employment in the field of basic and applied research at universities and other research institutions in our country and abroad, as well as in high-tech companies in the positions of researchers, developers, designers and team leaders.

Fulfilment criteria

See applicable regulations, DEAN’S GUIDELINE Rules for the organization of studies at FME (supplement to BUT Study and Examination Rules)

Study plan creation

The rules and conditions of study programmes are determined by:
BUT STUDY AND EXAMINATION RULES
BUT STUDY PROGRAMME STANDARDS,
STUDY AND EXAMINATION RULES of Brno University of Technology (USING "ECTS"),
DEAN’S GUIDELINE Rules for the organization of studies at FME (supplement to BUT Study and Examination Rules)
DEAN´S GUIDELINE Rules of Procedure of Doctoral Board of FME Study Programmes
Students in doctoral programmes do not follow the credit system. The grades “Passed” and “Failed” are used to grade examinations, doctoral state examination is graded “Passed” or “Failed”.

Availability for the disabled

Brno University of Technology acknowledges the need for equal access to higher education. There is no direct or indirect discrimination during the admission procedure or the study period. Students with specific educational needs (learning disabilities, physical and sensory handicap, chronic somatic diseases, autism spectrum disorders, impaired communication abilities, mental illness) can find help and counselling at Lifelong Learning Institute of Brno University of Technology. This issue is dealt with in detail in Rector's Guideline No. 11/2017 "Applicants and Students with Specific Needs at BUT". Furthermore, in Rector's Guideline No 71/2017 "Accommodation and Social Scholarship“ students can find information on a system of social scholarships.

What degree programme types may have preceded

The presented doctoral study programme represents the highest level of education in the field of physical engineering and nanotechnology. Follows the academic and bachelor's and subsequent master's degree programme of "Physical Engineering and Nanotechnology", which are carried out at FME BUT.

Issued topics of Doctoral Study Program

  1. Localized surface plasmons - applications in nanophotonics

    The PhD study will be aimed at understanding and utilization of localized surface plasmons for enhancement of photoluminescence properties of materials. To achieve it, Au plasmonic antennas placed in the vicinity of photoluminescence materials (e.g. silicon oxinitrides – SRON) will be namely used. The work will concentrate on numerical simulations of this phenomena by means of FDTD numerical codes, as well as fabrication of the mentioned system by lithographic methods and measurement and optimization of its photoluminescence properties.

    Tutor: Šikola Tomáš, prof. RNDr., CSc.

Course structure diagram with ECTS credits

1. year of study, winter semester
AbbreviationTitleL.Cr.Com.Compl.Hr. rangeGr.Op.
9AIVAb initio Calculations in Material Sciencescs0RecommendedDrExP - 20yes
9MAVMathematics of Wave Opticscs, en0RecommendedDrExP - 20yes
9ANCMicroscopy and Analysis Using Charged Particlescs, en0RecommendedDrExP - 20yes
9NTCNanotechnologycs, en0RecommendedDrExP - 20yes
9ONAOrganic Nanostructures at Inorganic Surfacescs0RecommendedDrExP - 20yes
9RPTX-Ray Computed Tomographycs0RecommendedDrExP - 20yes
9STHStructure of Mattercs, en0RecommendedDrExP - 20yes
9SLPIntroduction to Laser-Induced Breakdown Spectroscopycs0RecommendedDrExP - 20yes
9MMMMultilevel Modelling of Materialscs0RecommendedDrExP - 20yes
9VKBConcepts of Biofotonicscs0RecommendedDrExP - 20yes
9VKNConcepts of Nanophotonicscs0RecommendedDrExP - 20yes
9TPLConcepts in Solid State Theorycs0RecommendedDrExP - 20yes
9ZDNImaging and Diagnostics of Nanostructurescs0RecommendedDrExP - 20yes
1. year of study, summer semester
AbbreviationTitleL.Cr.Com.Compl.Hr. rangeGr.Op.
9KTDThe Fourier Transform of Lattices and the Kinematical Theory of Difractioncs, en0RecommendedDrExP - 20yes
9MPAMathematics for Applicationscs, en0RecommendedDrExP - 20yes
9MIAAdvanced Light Microscopy - Imaging Theorycs, en0RecommendedDrExP - 20yes
9PVPProgramming in Pythoncs, en0RecommendedDrExP - 20yes
9RF1Equations of Mathematical Physics Ics, en0RecommendedDrExP - 20yes
9MIKLight Microscopycs, en0RecommendedDrExP - 20yes
1. year of study, both semester
AbbreviationTitleL.Cr.Com.Compl.Hr. rangeGr.Op.
9AJEnglish for Doctoral Degree Studyen0CompulsoryDrExCj - 60yes
9ESMModelling of Thermodynamic Stability and Phase Transformationscs, en0RecommendedDrExP - 20yes