Wojskowa Akademia Techniczna - Centralny System Uwierzytelniania
Strona główna

Fundamentals of Quantum Electronics

Informacje ogólne

Kod przedmiotu: IOEVXCSM-FQEE-23L
Kod Erasmus / ISCED: (brak danych) / (brak danych)
Nazwa przedmiotu: Fundamentals of Quantum Electronics
Jednostka: Instytut Optoelektroniki
Grupy:
Punkty ECTS i inne: (brak) Podstawowe informacje o zasadach przyporządkowania punktów ECTS:
  • roczny wymiar godzinowy nakładu pracy studenta konieczny do osiągnięcia zakładanych efektów uczenia się dla danego etapu studiów wynosi 1500-1800 h, co odpowiada 60 ECTS;
  • tygodniowy wymiar godzinowy nakładu pracy studenta wynosi 45 h;
  • 1 punkt ECTS odpowiada 25-30 godzinom pracy studenta potrzebnej do osiągnięcia zakładanych efektów uczenia się;
  • tygodniowy nakład pracy studenta konieczny do osiągnięcia zakładanych efektów uczenia się pozwala uzyskać 1,5 ECTS;
  • nakład pracy potrzebny do zaliczenia przedmiotu, któremu przypisano 3 ECTS, stanowi 10% semestralnego obciążenia studenta.
Język prowadzenia: angielski
Forma studiów:

stacjonarne

Rodzaj studiów:

II stopnia

Rodzaj przedmiotu:

obowiązkowy

Forma zajęć liczba godzin/rygor:

(tylko po angielsku) Lec. 40/x, Prac. 12/x, Lab. 8/x, In summa: 60 hours, 3,5 ECTS

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)

Fundamentals of quantum mechanics - Heisenberg's uncertainty principle, Hilbert space, Hermite operators, operator equations, measurements in quantum mechanics, postulates of quantum mechanics, Schrodinger's equation, wave function, examples (potential cavity, potential barrier, band structure of semiconductors). Quantum harmonic oscillator. Quantization of electromagnetic field (single-mode field, quantum description of beam splitter). Single-photon experiments. Blackbody radiation. Interaction of radiation with the medium (stimulated and

spontaneous transition probabilities, spectral line form). Oscillatory and rotational spectra, quantum numbers for atoms and ions. Laser medium, three and four level systems, material equations. Laser properties of active ions in crystals (rare earth and transition group metal ions). Laser, saturation gain

effect, condition for stationary laser generation. Polarizability, dispersion of optical media. Optical properties of anisotropic media, electro-

Pełny opis: (tylko po angielsku)

Lectures

1. Tematy kolejnych zajęć / liczba godzin / krótki opis treści zajęć

Practicals

2. Tematy kolejnych zajęć / liczba godzin / krótki opis treści zaję

Laboratories

3. Tematy kolejnych zajęć / liczba godzin / krótki opis treści zajęć

Literatura: (tylko po angielsku)

Primary reading list:

autor, tytuł, wydawnictwo, rok wydania

Supplementary reading list:

autor, tytuł, wydawnictwo, rok wydania

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 /

has an extended and enhanced knowledge in the field of selected parts of mathematics relating to elements of discrete and applied mathematics, including mathematical methods required for creating models and analysing of optoelectronic and electronic systems / K_W02

W2 /

has extended and improved his/her knowledge in the field of physics, including the elements of quantum physics and solid-state physics, the elements of laser physics, including the knowledge required for understanding the physical phenomena having a great impact on the properties of new materials and the functioning of electronic and optoelectronic elements and is familiar with the methods and forms of description of optical material media and the influence of electromagnetic radiation on material media / K_W06

W3 /

has an enhanced and theoretically supported knowledge in the field of photonics, including knowledge permitting the understanding of functioning of components and systems of optical telecommunication as well as optical recording and information processing and knowledge about phenomena occurring in laser centres and about the properties of active media used in laser centres / K_W07

W4 /

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

W5 /

has an extended knowledge in the field of sources of electromagnetic radiation, including in particular, solid-state lasers, semiconductor lasers and their use in telecommunication, technology, medicine and scientific research / K_W25

U1 /

may determine the directions of further self-education and realize the process of self-education / K_U05

U2 /

may formulate and test the hypotheses connected with simple research problems / K_U09

U3 /

may evaluate the utility and the possibility of use of new achievements (techniques and technology) in the field of optoelectronics / K_U10

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

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%.

Przedmiot nie jest oferowany w żadnym z aktualnych cykli dydaktycznych.
Opisy przedmiotów w USOS i USOSweb są chronione prawem autorskim.
Właścicielem praw autorskich jest Wojskowa Akademia Techniczna.
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