Laser Systems
Informacje ogólne
Kod przedmiotu: | IOEVXCSM-LASE-23L |
Kod Erasmus / ISCED: | (brak danych) / (brak danych) |
Nazwa przedmiotu: | Laser Systems |
Jednostka: | Instytut Optoelektroniki |
Grupy: | |
Punkty ECTS i inne: |
(brak)
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Język prowadzenia: | angielski |
Forma studiów: | stacjonarne |
Rodzaj studiów: | II stopnia |
Rodzaj przedmiotu: | wybieralny |
Forma zajęć liczba godzin/rygor: | (tylko po angielsku) Lec. 14, lab. 8+, sem. 8. In summa: 30 , ECTS: 3 |
Przedmioty wprowadzające: | (tylko po angielsku) mathematics, physics, basics of quantum electronics, optics |
Programy: | (tylko po angielsku) second semester / optoelectronics |
Autor: | (tylko po angielsku) Mirosław SZCZUREK, PhD Eng. |
Bilans ECTS: | (tylko po angielsku) Student's activity/workload in hours 1. Participation in lectures / ..... 2. Participation in laboratories / 3. Participation in practicals / ..... 4. Participation in seminars / ..... 5. Independent study of lecture topics / .... 6. Independent preparation for laboratories I .... 7. Independent preparation for exercises / .... 8. Independent preparation for the seminar / .... 9. Project implementation / 10. Participation in consultations / ..... 11. Preparation for the exam / .... 12. Preparation for passing / .... 13. Participation in the exam / .... Total student workload: ..... hours/...ECTS Classes with teachers (1+2+3+4+9+10+13): .....hours/....ECTS Classes related to scientific activity: .....hours/....ECTS |
Skrócony opis: |
(tylko po angielsku) The aim of the course is to familiarize students with the construction and operation of complex laser systems. All the functional elements of the laser system, their role in the system and the principle of operation will be discussed. The focus will be on high energy and high power systems. Currently operating systems and their applications will be presented. |
Pełny opis: |
(tylko po angielsku) Lectures / presentation of program content using audiovisual techniques - providing theoretical information and indicating practical examples illustrating the theory. 1. Properties of electromagnetic radiation. / 2 h 2. Laser active medium. / 2 h 3. Spontaneous and stimulated emission. / 2 h 4. Laser resonator. / 2 h 5. Laser operation control. / 2 h 6. Lasers and laser systems – structure and operation. / 2 h 7. Interaction of laser radiation with matter. / 2 h Laboratories / verification of the knowledge acquired by students by independently performing laboratory exercises, preparing a report on the tests and measurements carried out, and developing conclusions. 1. Nd:YAG laser system / 4 h 2. Femtosecond laser system / 4 h Seminars / carried out by students in the form of an oral presentation. 1. Selected lasers and laser systems - practical implementations based on publications. Discussing and issuing tasks for students to prepare independently. / 2 h 2. Discussion of selected publications. Discussion of substantive problems. Preparation for an oral presentation. / 2 h 3. Presentation of selected lasers and laser systems in the form of an oral presentation. Students present prepared presentations. / 4 h |
Literatura: |
(tylko po angielsku) Primary reading list: Walter Koechner, Solid-State Laser Engineering, Sixth Revised and Updated Edition, Springer Science+Business Media, 2006 Supplementary reading list: William T. Silfvast, Laser Fundamentals, Second Edition, Cambridge University Press, 2004 Orazio Svelto, Principles of Lasers, Fourth Edition, Springer Science+Business Media, 1998 |
Efekty uczenia się: |
(tylko po angielsku) >>Efekty kierunkowe Z PROGRAMU STUDIÓW US nr 97/WAT/2021 z dnia 21 grudnia 2021 r. - proszę zmodyfikować do PRZEDMIOTOWYCH << przy zatwierdzaniu usunąć ten wiersz bardzo proszę KD IOE W1 / student has systematic knowledge of the construction and operation of lasers and laser systems / K_W06, K_W07 W2 / student knows and understands the basic methods of measuring laser radiation parameters/ W3 / has an extended and theoretically supported knowledge about the range of electromagnetic fields and waves and wave propagation as well as knowledge required for understanding of generation, modulation and detection and demodulation of optical signals / K_W17 U1 / may generate information from the literature, databases and other adequately selected sources, also in English or other foreign language recognized as a language of international communication in the field of optoelectronics, may integrate the obtained information, proceed with their interpretation and critical evaluation as well as draw conclusions and formulate and exhaustively justify opinions / K_U02 U2 / may determine the directions of further self-education and realize the process of self-education / K_U05 U3 / may – while formulating and solving engineering tasks – integrate the knowledge of science branches and disciplines related to optoelectronics and apply a systematic approach with consideration of also non-technical aspects / K_U08 K1 / recognizes the need of continuous building of knowledge and competences, knows how to inspire the process of education of other persons, is ready to consult experts in case of difficulties in independent solving of problems / K_K01 K2 / is aware of the social role of the graduate of technical university and, in particular, of the need to formulate and to transmit to the community – a/o through mass-media – of information and opinions about the scientific discoveries; makes efforts to transmit such information in a commonly understood way / K_K08 |
Metody i kryteria oceniania: |
(tylko po angielsku) Credit for the course is awarded on the basis of: examination, subject assessment. Practicals are assessed on the basis of: Laboratories are assessed on the basis of: The exam/credit assessment is conducted in the form of: The condition for admission to the exam/pass is: The achievement of the effect ... ..... - is verified. Achieving the effect ... ..... - is tested Very good grade is awarded to the student who has achieved the expected learning outcomes at the level of 91-100%. Good plus grade is awarded to the student who has achieved the expected learning outcomes at the level of 81-90%. Good grade is awarded to the student who has achieved the expected learning outcomes at the level of 71-80%. Sufficient plus grade is awarded to the student who has achieved the expected learning outcomes at the level of 61-70%. Sufficient grade is awarded to the student who has achieved the expected learning outcomes at the level of 51-60%. Insufficient grade is awarded to the student who has achieved the expected learning outcomes at the level equal or lower than 50%. General credited grade is awarded to the student who has achieved the expected learning outcomes at the level higher than 50%. General non-credited grade is awarded to the student who has achieved the expected learning outcomes at the level equal or lower than 50%. |
Właścicielem praw autorskich jest Wojskowa Akademia Techniczna.