Infopaket

Optical spectroscopy

ВБ 4.4

Вибіркова дисципліна для ОП

Second

2022/2023

2 Semester

4

• provide basic information from the special course "Optical Spectroscopy" for master's students, which is an important part of the standard course in the specialty "Applied Optics and Magnetism"; • teach how to apply theoretical knowledge to solving practical and experimental problems; • promote the development of logical and analytical thinking in students, the application of knowledge, skills and communications in further professional activities.

Full-time form

The educational discipline "Methods of classical and quantum spectroscopy" is based on the cycle of disciplines of professional and practical training, in particular, general physics: "Electricity", "Optics", "Atomic physics", as well as "Quantum mechanics", "Electrodynamics", "Quantum and semiconductor electronics".

TOPIC 1 - Introduction. Spectroscopy: past, present and future. TOPIC 2 – Ways of mutual conversion of optical spectral information into electrical signals. TOPIC 3 – Application of broadband optical radiation as an element of information technology. TOPIC 4 – Application of geometric and wave optics methods for calculating optical, in particular spectral images. TOPIC 5 – Quantum mechanical calculations of emission and absorption spectra. TOPIC 6 – Methods and devices for detecting signals of optical and infrared spectral ranges. TOPIC 7 – Methods of correlation processing of optical signals, in particular the method of counting photons. TOPIC 8 – Principles of constructing pump-probe spectroscopy schemes. TOPIC 9 – Principles of construction of laser schemes of high and ultra-high spectral resolution. TOPIC 10 – Application of Raman scattering processes and multiphoton processes in spectroscopy. TOPIC 11 -- Methods of theoretical analysis of spectral images.

• K.E.Peiponen, E.M. Vartiainen, T.Asakura. Dispersion, Complex Analysis and Optical Spectroscopy. Classical Theory. Springer, 1999, 129p. • N.Tkachenko. Optical Spectroscopy.Methods and Instrumentations. Elsevier,2006. • Jm.Lerner,A.Thesenon. Theory of Optics and Spectroscopy.Instruments SA,Inc.1988 • W.Parson. Modern Spectroscopy.Springer-Verlag,2007. • D.J.Brady. Optical Imaging and Spectroscopy. J. Wiley &Sons, Inc. 2009, 518p. • Конончук Г.Л., Прокопець В.М., Стукаленко В.В. Вступ до Фур`є-оптики. Навчальний посібник.-К.: Видавничо-поліграфічний центр «Київський університет», 2010-320с.

lectures, independent work, laboratory work, defense of works, essays, defense of essays, colloquia, control papers, assessment.

semester assessment: control is carried out according to the following principle. The academic semester has 1 meaningful module. To determine the level of knowledge, each student prepares and defends an essay on the chosen topic. final assessment (in the form of credit): the form of credit is written and oral. In total, you can get from 0 to 50 points. A condition for achieving a positive grade for a discipline is to obtain a total of at least 60 points. conditions for admission to the final exam: the condition for admission to the exam is that the student receives a total of no less than the critical-calculated minimum of 35 points per semester.

Ukrainian