Workshop on laser physics and quantum electronics

Course: Laser and optoelectronic technique

Structural unit: Faculty of Physics

Title
Workshop on laser physics and quantum electronics
Code
ОК4
Module type
Обов’язкова дисципліна для ОП
Educational cycle
Second
Year of study when the component is delivered
2023/2024
Semester/trimester when the component is delivered
1 Semester
Number of ECTS credits allocated
3
Learning outcomes
- Be able to formulate and solve problems in the industry metrology related to surveillance procedures objects, measurement, control, diagnosing and forecasting taking into account the importance of social Constraints - Analyze and evaluate the impact of information and measurement engineering and metrological activities on the environment and safety of human life - Know and understand the physical basics of device operation and systems based on laser technology and nonlinear optics.
Form of study
Full-time form
Prerequisites and co-requisites
1. Have basic knowledge of the special course "Laser technology and applications quantum electronics "," Optics "," Geometric optics "," Optical technology " spectroscopy ". 2 Have skills in working with basic optical devices: telescope, collimator, interferometer, spectrograph. 3. Have the skills to work with specialized packages for processing physical information "Origin" or "Mathcard".
Course content
Within the framework of a special workshop, methods of adjusting lasers and determination of parameters of their radiation: spectrum, energy, radiation pattern, time characteristics, as well as the transformation of laser beams. The program of the special workshop provides for the performance of eight laboratory works: (topics): 1. Lab.1. Adjustment of the ruby ​​laser resonator. 2. Lab.2. Spectrum of generation and selection of longitudinal modes of ruby ​​laser. 3. Lab.Z. Adjustment of the He-Ne laser resonator. 4. Lab.4. Transverse modes and generation characteristics of He-Ne laser. 5. Lab.5. Dynamics of neodymium laser radiation in free generation modes and quality factor modulation. 6. Lab.6. Dynamics of neodymium laser radiation in free generation modes and quality factor modulation. 7. Lab.7. Transformation of a laser beam by a lens. 8. Lab.8. Adjusting the wavelength of laser generation on organic dye with dispersion resonator.
Recommended or required reading and other learning resources/tools
Основна (базова): 1. В.І.Григорук, А.І.Іванісик, П.А.Коротков. Експериментальна лазерна оптика.–К., 2007, 384с. 2. В.П.Гаращук. Основи фізики лазерів. – К., В-во «Пульсари», 2012, 342с. 3. В.П.Ящук. Розширений практикум з квантової електроніки. -К., 2017, 86с.
Planned learning activities and teaching methods
Teaching methods: laboratory work in a special workshop, consultations. Methods evaluation: survey, written report and defense of each laboratory work. Final the assessment is made on the basis of intermediate assessments of protection of laboratory work (80%) and offset (20%).
Assessment methods and criteria
Semester assessment: 1. MR1: performance and protection of laboratory works NoNo 1 -4 1 (24 points - 40 points). 2. MR2: performance and protection of laboratory works No. 5 -8 1 (24 points - 40 points). Final evaluation in the form of a test (12 - 20 points).
Language of instruction
Ukrainian

Lecturers

This discipline is taught by the following teachers

Vasyl Pavlovych Yashchuk
Department of Optics
Faculty of Physics

Departments

The following departments are involved in teaching the above discipline

Department of Optics
Faculty of Physics