Interaction of electromagnetic radiation with molecular systems
Course: Quantum computers, computing and information
Structural unit: Faculty of Physics
Title
Interaction of electromagnetic radiation with molecular systems
Code
ОК20
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
4 Semester
Number of ECTS credits allocated
3
Learning outcomes
Knowledge of the properties of electromagnetic radiation and the laws of its propagation in the matter and the basic mechanisms of interaction of electromagnetic radiation with molecular systems. Knowledge of the processes of absorption, transmission, and emission of light by molecules. Ability to establish relationships between the spectral characteristics of molecules, their structure, and physical processes in them. Ability to solve practical problems in some sections of physics, the ability to discuss and argue their position and independently prepare a report on the chosen topic.
Form of study
Full-time form
Prerequisites and co-requisites
1. The student must know the main sections of general courses in mathematics and physics: "Mathematical Analysis", "Electricity", "Optics", "Atomic Physics", basics of the course "Chemistry", the main topics of theoretical physics courses "Quantum Mechanics", "Electrodynamics", Thermodynamics ", And special courses" Quantum Electronics "," Quantum Optics "," Processes of absorption, propagation and emission of light ". 2. The student must be able to solve problems in the courses of electricity, optics, electrodynamics, and quantum mechanics. 3 The student must have methods for solving problems from the courses of mathematical analysis and the basics of differential equations.
Course content
The subject of the discipline "Interaction of electromagnetic radiation with molecular systems" is the study of basic physical processes occurring in molecules during the absorption and emission of light. In the lecture course, special attention is paid to the physics of molecular systems, quantum-mechanical foundations of bioenergy, as well as the interaction of electromagnetic radiation with matter. The following issues are considered: properties of electromagnetic radiation and its interaction with matter, absorption, scattering, and emission of light by molecules, quantum-mechanical bases of bioenergy, photosynthesis, cellular respiration, the action of electromagnetic field on molecular systems, types, and properties of ionizing radiation, mechanism of ionizing radiation.
Recommended or required reading and other learning resources/tools
1. Bilyyi M.U., Okhrimenko B.A. Atomic physics.-K.: Znannia. 2009. - 559 p.
2. Kostyuk P. G. Biophysics: textbook. for students biological, medical and physical faculties of universities / edited by P. G. Kostyuk. K.: Oberegy, 2001. 544 p.
3. O. V. Chalyi and others. Medical and biological physics: textbook. for stud. higher med. Inst. III-IV levels of accreditation / Ed. O. V. Chalyi. 2nd ed., revision. and additional K.: Book Plus, 2005. 760 p.
4. V. S. Antoniuk and others. Biophysics and biomechanics: tutorial. for students higher education closing National technical University of Ukraine "Kyiv. polytechnic institute". K.: NTUU "KPI", 2012. 343 p.
5. Clayton R. Photosynthesis. Physical mechanisms and chemical models. Moscow, 1984.
6. Pope M., Svenberg Ch. Electronic processes in organic crystals. M.: Mir, 1985. 543 p.
7. Rabek Ya. Experimental methods in photochemistry and photophysics. In 2 volumes. - M.: Mir, 1985.
Planned learning activities and teaching methods
lectures and discussions.
Assessment methods and criteria
The control is carried out according to the module-rating system, which consists of 3 content modules. The knowledge assessment system includes current, modular, and semester control of knowledge. The results of students' learning activities are evaluated on a 100-point scale. Forms of current control: assessment of tests, presentations, oral answers during the lecture, written and oral independent assignments. The student can receive a maximum of 10 points for the presentation and another 15 points for oral answers during the lecture, and written and oral independent assignments. Modular control: 3 modular tests for which the student can get a maximum of 35 points. The final semester control is conducted in the form of a test, for which the student can receive a maximum of 100 points (60 points per semester and 40 points during the test).
Language of instruction
Ukrainian
Lecturers
This discipline is taught by the following teachers
Nataliia
Volodymirivna
Bashmakova
Department of Experimental Physics
Faculty of Physics
Faculty of Physics
Departments
The following departments are involved in teaching the above discipline
Department of Experimental Physics
Faculty of Physics