* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download of the Physical and Technical Faculty
Optical rogue waves wikipedia , lookup
Optical flat wikipedia , lookup
Optical amplifier wikipedia , lookup
Confocal microscopy wikipedia , lookup
Photon scanning microscopy wikipedia , lookup
Ultrafast laser spectroscopy wikipedia , lookup
Dispersion staining wikipedia , lookup
Chemical imaging wikipedia , lookup
Atmospheric optics wikipedia , lookup
Nonlinear optics wikipedia , lookup
Ellipsometry wikipedia , lookup
Night vision device wikipedia , lookup
Optical tweezers wikipedia , lookup
Interferometry wikipedia , lookup
Silicon photonics wikipedia , lookup
Thomas Young (scientist) wikipedia , lookup
3D optical data storage wikipedia , lookup
Optical coherence tomography wikipedia , lookup
Nonimaging optics wikipedia , lookup
Astronomical spectroscopy wikipedia , lookup
Retroreflector wikipedia , lookup
Magnetic circular dichroism wikipedia , lookup
Anti-reflective coating wikipedia , lookup
AL-FARABI KAZAKH NATIONAL UNIVERSITY Physical and Technical Faculty Education program for specialty Physics - 050110 Approved at a meeting of the Academic Council of the Physical and Technical Faculty Protocol # 10 from May 31, 2013 Dean of the Faculty _____________ A. Davletov SYLLABUS Laboratory Practicum on Optical Devices IInd year, spring semester, 3 credits (0+1+2) Teacher: Anastassiya A. Migunova Phone: Department of Solid State Physics and Nonlinear Physics 377-34-12 E-mail: [email protected] Physical and Technical Faculty, room 213, 518 COURSE GOALS AND OBJECTIVES The course "Laboratory Practicum on Optical Devices" is destined to the study of the optical techniques, devices and its applications, most important effects and laws. The course consists of laboratory works and seminars. The seminars are primarily intended to familiarize with the studied optical phenomena, terminology, graphical and analytical apparatus. The significant part of the seminars is the use of real experiments and computer emulation, calculations studied variables, evaluation of the measurement errors, precision of experiments. Approximately 70% of the schedule are time for laboratory works. The remaining 30% are offered as seminars and selfstudying of students (SSS) with given methodological developments. COMPETENCES At the end of the course the students should: know the basic principles of image formation according to geometrical optics have awareness of the wave processes and phenomena in the interaction of electromagnetic waves with materials know of methods of generation, detection and operation of light beams be able to analyze experimental data understand the purpose and technics of the special optical equipment. PREREQUISITES: Mechanics, Molecular physics, Electricity and Magnetics, Mathematical Analysis, Informatics. POSTREQUISITES: Knowledge and skills from discipline "Laboratory Training on Optical Devices" are the basis for the study by students of the subsequent special courses as Solid State Physics, X-ray Diffraction Analysis, Atomic Physics, and other, also working on bachelor's and master's theses. 1 2 Subjects Laboratory works. Measurement of the refractive index of liquids with a refractometer Seminar. The calculation of the polarizability of the molecules. Testing Lorentz-Lorentz formula for the two-component mixture SSS topic. Devices to form the dispersion of light. The molecular refraction. The calculation of the measurement errors (standard error, confidence intervals, coefficients of the Student, the relative and absolute error) Laboratory works. Finding of the refractive index of the glass plate with a microscope Seminar. Familiarization with the methods of measuring the thickness of transparent plates with a microscope and micrometer SSS topic. Methods for measurement of refractive indices of the substances 3 Laboratory works. Measurement of the light wavelength by Fresnel biprism Seminar. Consideration of the principle of the Fresnel biprism imaging. SSS topic. Methods for producing an interference patterns 4 5 Laboratory works. Measurement of the light wavelength with Fresnel biprism Seminar. The calculation of the optical system "Source – Beam former – Biprism – Lens – Micrometer eyepiece scale" SSS topic. Optical schemes to form coherent beams Laboratory works. Measurement of the light wavelength using Newton's rings Seminar. Discussion of means to form the interference rings and the causes for the aberrations of the system SSS topic. Interference in thin films. Michelson Echelon. Interference method for monitoring of surfaces 6 7 8 Laboratory works. Measurement of the light wavelength using Newton's rings Seminar. Calculation of the ring radii SSS topic. Multilayer dielectric and conductive coatings Laboratory works. The study of the laws of reflection and refraction at the boundary between two dielectric media Seminar. Introduction to the capabilities of optical virtual laboratory SSS topic. Reflection spectra of metals. Transmission and reflection spectra of semiconductors and dielectrics 1st Interim Control (IC) Laboratory works. Investigation of a thin lens with spherical surfaces Seminar. Consideration of the results of imaging in a variety of relative positions of the object and the lens, and also depending on the Hours Weeks Structure of course Maximum mark 2 6 1 6 1 2 2 6 1 6 1 2 2 6 1 6 1 2 2 7 1 6 1 2 2 6 1 7 1 2 2 6 1 1 2 6 2 6 1 6 1 2 100 2 1 6 6 9 10 11 12 13 14 type of lens SSS topic. Imaging curved reflective and transparent surfaces 1 2 Laboratory works. Check the law of Malus 2 6 Seminar. The study of effect from polarizers system in depending on 1 6 their relative position SSS topic. The phenomenon of circular dichroism. Polychroism 1 2 Laboratory works. The study of emission and absorption spectra with 2 6 steeloscope Seminar. Establishment of the spectral lines of different elements 1 6 SSS topic. The atomic emission spectra. Pyrometry 1 2 Laboratory works. The study of emission and absorption spectra with 2 6 steeloscope Seminar. Steeloscope calibration 1 6 SSS topic. Spectrometric methods in astrophysics. The color temperature scale in the metallurgy. Infrared imager 1 2 Laboratory works. The study of the fundamental laws of the external 2 6 photoelectric effect Seminar. The study of spectral characteristics of semiconductors. The 1 8 calculation of internal and external quantum efficiency SSS topic. LED. Photovoltaics 1 2 Laboratory works. Finding of the Fresnel zone with plate zones 2 6 Seminar. Construction of vector diagrams. 1 6 SSS topic. Calculation of Schuster’s zones 1 2 Laboratory works. The study of light absorption in materials, check 2 6 of Bouguer-Lambert and Fresnel laws Seminar. Definition of light transmission and light absorption 1 6 SSS topic. Methods for measuring the absorption coefficient of 1 2 materials 2nd Interim Control (IC) 100 Final Exam (FE): written, 2 theoretical questions, 1 problem TOTAL 100 st nd 1 IC 2 IC 0,6 FE 0,4 Итоговый балл рассчитывается по формуле: 2 References: Basic: 1 Sarsembinov Sh. Sh., Akhmetov E. A., Ronzhin V. V., Koshkimbayeva A. Sh. General Physical Training. Optics. – Almaty. – 1999. - 171 p. (Rus.) 2 Akhmanov S. A., Nikitin S. Yu. Physical Optics. – Clarendon Press – OXFORD. – 1997. – 488 p. (Eng.) 3 Бутиков Е. И. Оптика. – С.-Петербург.: Лань. – 2012. – 608 с. 4 Бычков Р. М., Чугуй Ю. В. Беседы о геометрической оптике. – Новосибирск. : Изд-во СО РАН. - 2011. – 480 с. 5 Трофимова Т. И., Фирсов А. В. Курс физики. Задачи и решения. 4 –е изд. – М.: Академия. – 2011. – 592 с. 6 Занин И. Е., Голицина О. М., Чернышова Т. Д., Чернышев В. В. Решение задач по оптике в курсе общей физики в разделах «Геометрическая оптика», «Поляризация света». - Воронеж: Изд. Воронежского гос. унив-та. – 2008. – 27 с. 7 Русинов М.М., Грамматин А. П., Иванов П. Д. и др. Вычислительная оптика. Справочник //под ред. Русинова М. М. - Л.: Машиностроение – 2008. – 423 с. 8 Федосов И. В. Геометрическая оптика. – Саратов: Сателлит. – 2008. – 92 с. 9 Стафеев С. К., Боярский К. К., Башнина Г. Л. Основы оптики. – С.-Петербург. – 2006. – 336 с. 10 Лебедева В. В. Экспериментальная оптика. – М. – 2005. – 282 с. 11 Саржевский А. М. Оптика. Полный курс. - М. – 2004. – 608 с. 12 Ландсберг Г. С. Оптика. – М.: Физматлит. – 2003. – 848 с. Ландсберг Г. С. Оптика. – М.: Физматлит. – 2003. – 848 с. 13 Грабовский Р.И. Сборник задач по физике. - С.-Петербург: «Лань». - 2002. – 128 с. 14 Воробьев Л. Е., Ивченко Е. Л., Фирсо Д. А., Шалыгин В. А. Оптические свойства наноструктур. С.-Петербург.: Наука. – 2001. – 188 с. 15 Родионов С. А. Основы оптики. Конспект лекций. – С.-Петербург.: ГИТМО. – 2000. – 167 с. 16 Шепелев А. В. Оптика. – М.: Эдиториал. – 2000. – 80 с. 17 Сивухин Д. В.Общий курс физики. Оптика. - М. – 1980. - 752 с. 18 Годжаев Н. М. Оптика. - М.: Высш. шк. – 1977. - 432 с. Aditional: 19 Methodological description of the work at the device for observation of the Fresnel zones with a zone plate. PHYWE Systeme GmbH & Co. KG. D-37070 Gottingen. Laboratory Experiments Physics. P2220400. LEP 2.2.04-00, 3 p. 20 Methodological description of the work at the device for study of the external photoeffect. Passport ФПК10.00.00.00.00 ПС, 6 p. 21 Methodological description to perform laboratory work "Absorption". St.-Petersburg, 2011, 6 p. * See also Map of methodical support of the discipline Grade Equivalent (GPA) % A AB+ B BC+ C CD+ D F I W AW AU P/NP 4 3,67 3,33 3 2,67 2,33 2 1,67 1,33 1 - 95-100 90-94 85-89 80-84 75-79 70-74 65-69 60-64 55-59 50-54 0-49 65-100/0-64 Grade in traditional system "Excellent" "Good" " Satisfactory" "Failing" (no-go mark) "Incomplete" "Withdrawal" "Administrative Withdrawal " Auditing – Discipline listened" "Pass / No Pass" In grading the performance of the student during the semester is taken into account the following: attendance, active and productive participation in practical classes, study of basic and additional literature, fulfillment of the SWS, timely submission of all homeworks. For the late presentation of three SWS rating of AW. The policy of academic behaviour and ethics Be tolerant and respect other people's opinions. Objection was formulated in the correct form. Plagiarism and other forms of cheating are not allowed. Prompting and copy off from someone are not allowed during the delivery of the SWS, intermediate control and final exam, copying problems solved by others, passing the exam for another student. A student convicted of falsification of any information of the course will receive a final grade of «F». Help: For advice on the implementation of independent work (SWS), their delivery and protection, as well as additional information on the studied material, and all other emerging questions for course please contact the instructor during his office hours. Recommended at a meeting of the Department Protocol # 38 from May 28, 2013 Head of Department, doctor of physics and mathematics Prikhodko О. Yu. Teacher Migunova A. A.