Subjects

Laser spectroscopy

Course: Laser and optoelectronic technique

Structural unit: Faculty of Physics

Title

Laser spectroscopy

Code

ОК9

Module type

Обов’язкова дисципліна для ОП

Educational cycle

Second

Year of study when the component is delivered

2022/2023

Semester/trimester when the component is delivered

3 Semester

Number of ECTS credits allocated

Learning outcomes

- Have modern methods and design and research methods, and also analysis of the obtained results - Apply modern methods theoretical and experimental accuracy assessment research obtained measurement results, be able to formulate sound conclusions - Know and understand the principles operation and structure of optical and optoelectronic information Measuring Systems - Know and understand the physical basics operation of devices and systems on based on laser technology and nonlinear optics.

Form of study

Full-time form

Prerequisites and co-requisites

The applicant must first master the following disciplines volume of teaching at the physical faculties of classical universities: • General Physics. Optics. • General Physics. Atomic physics. • Theoretical physics. Quantum mechanics. • Special course. Quantum electronics and physics of lasers. • Special course. Nonlinear optics. • Special course. Spectroscopy of atoms and molecules.

Course content

The special course examines the physical foundations and modern achievements laser physics and spectroscopy. The curriculum consists of three sections (topics): Topic 1. High resolution laser spectroscopy. Topic 2. Coherent laser spectroscopy. Topic 3. Multiphoton and cascade processes. The topics correspond to three content modules: - module 1 - topic 1; - module 2 - topic 2; - module 3 - topic 3.

Recommended or required reading and other learning resources/tools

Основна: 1. Методичні вказівки до виконання лабораторних робіт з курсу „Лазерна спектроскопія”. /С.Є. Зеленський.- К.: ВПЦ „Київський університет”, 2001.- 42с. 2. Maimistov A.I., Basharov A.M. Nonlinear Optical Waves. – Kluwer Academic Publ., 1999. - 658p. 3. Boyd R.W. Nonlinear Optics. – Academic Press, 2003. – 594p.

Planned learning activities and teaching methods

Teaching methods: lectures, laboratory work, consultations. Methods evaluation: modular tests, abstracts, performance monitoring laboratory work, credit for laboratory work, exam. Final the grade is set on the basis of intermediate grades of modular control (40%) and exam (60%).

Assessment methods and criteria

Semester assessment: 1. Modular test (6 points - 10 points). 2. Modular test 2 (6 points - 10 points). Final assessment in the form of an exam (36 points - 60 points). A student is not admitted to the exam if he / she scored during the semester less than 24 points. The grade for the exam cannot be less than 36 points for obtaining an overall positive assessment for the course.

Language of instruction

Ukrainian

Lecturers

This discipline is taught by the following teachers

Serge Yevhenovych Zelensky

Department of Optics
Faculty of Physics

Departments

The following departments are involved in teaching the above discipline

Department of Optics

Faculty of Physics