LF:BOOP0422c Optical Devices II-p - Course Information

BOOP0422c Optical Devices II - practice

Extent and Intensity

0/1/0. 1 credit(s). Type of Completion: z (credit).
Taught in person.

Teacher(s)

doc. Ing. Teodor Baláž, CSc. (seminar tutor)
Ing. Petr Jákl, Ph.D. (seminar tutor)
doc. MUDr. Svatopluk Synek, CSc. (seminar tutor)

Guaranteed by

prof. RNDr. Radim Chmelík, Ph.D.
Department of Optometry and Orthoptics – Departments of Non-medical Branches – Faculty of Medicine
Contact Person: Lenka Herníková
Supplier department: Department of Optometry and Orthoptics – Departments of Non-medical Branches – Faculty of Medicine

Timetable of Seminar Groups

BOOP0422c/Sk_1: Thu 22. 2. 13:30–15:10 91, Thu 29. 2. 13:30–15:10 91, Thu 7. 3. 13:30–15:10 91, Thu 14. 3. 13:30–15:10 91, Thu 21. 3. 13:30–15:10 91, Thu 28. 3. 13:30–15:10 91, Thu 4. 4. 13:30–15:10 91, Thu 11. 4. 13:30–15:10 91, Thu 18. 4. 13:30–15:10 91, Thu 25. 4. 13:30–15:10 91, Thu 2. 5. 13:30–15:10 91, Thu 9. 5. 13:30–15:10 91, Thu 23. 5. 13:30–15:10 91, Thu 30. 5. 13:30–15:10 91
BOOP0422c/Sk_2: Thu 22. 2. 15:30–17:10 91, Thu 29. 2. 15:30–17:10 91, Thu 7. 3. 15:30–17:10 91, Thu 14. 3. 15:30–17:10 91, Thu 21. 3. 15:30–17:10 91, Thu 28. 3. 15:30–17:10 91, Thu 4. 4. 15:30–17:10 91, Thu 11. 4. 15:30–17:10 91, Thu 18. 4. 15:30–17:10 91, Thu 25. 4. 15:30–17:10 91, Thu 2. 5. 15:30–17:10 91, Thu 9. 5. 15:30–17:10 91, Thu 23. 5. 15:30–17:10 91, Thu 30. 5. 15:30–17:10 91

Prerequisites

BOOP0321c Optical Devices I-p && BOBO0322p Spectacles Optics II-lec. && BOBO0322c Spectacles Optics II-p && BOZF0322 Physical Optic Measurement II
BOOP0321c && BOBO0322p && BOBO0322c && BOZF0322

Course Enrolment Limitations

The course is only offered to the students of the study fields the course is directly associated with.

fields of study / plans the course is directly associated with

• Optics and Optometry (programme LF, B-OPOP)
• Optics and Optometry (programme LF, B-SZ)

Course objectives

At the end of this exercise collection a student will be able to define principles and constructions of basic display optical instruments – subjective and objective – eye and their properties, spectacles, spoils, binoculars, microscopes, cameras and magnifying and projecting instruments, longmeters and refractometers, focometers, monochromators and spectrofotometers. Gained general information about optic segmentation and optical instruments the student applies on spectacle optics for perfect vision and eye protection against harmful radiation.

Learning outcomes

At the end of this exercise collection a student will be able to define principles and constructions of basic display optical instruments – subjective and objective – eye and their properties, spectacles, spoils, binoculars, microscopes, cameras and magnifying and projecting instruments, longmeters and refractometers, focometers, monochromators and spectrofotometers.

Syllabus

• Overview of the division of optics and optical instruments – classical optics, optoelectonics, coherent optics. International system of units SI base and derived units. The electromagnetic spectrum. Continues and line spectrum. Characteristic wavelengths in the visible wavelength range. Vision and lighting, light and vision, photometric units - luminous flux, luminous intensity (luminance), brightness, lighting, lighting in the field of ophthalmic optics. Changing of the image lighting by transferring the light across a imaging system. Focometer and its optical schematic. Monochromators - optical schematic. Refraction of the light y a prism, the angle of minimum deviation, dispersion and resolving power of the prisms. Dispersion on the grating. Dispersion of light, resolving power of gratings. First and second order spectra. Fabry-Perot interferometer. Dispersion,area of dispersion, resolving power, image contrast. Spectrophotometer – optical schematic, the principle of measuring the spectral transmission of spectacle glasses. Lasers. Stimulated emission of radiation. Energy levels of atoms. Laser resonators. The effects of optical resonator on the characteristics of a laser beam. Types of lasers: gas, solid state and semiconductor. Gaussian laser beam. The transverse distribution of the amplitude, the divergence and the free space propagation of the laser beams. The radius of curvature of laser beams wavefront. Transformation of the Gaussian laser beam with an optical system, focusing of the laser radiation and the center of the laser beam. Review, written test. .

Literature

• Fuka, J. and Havelka, B.: Optika. Praha: SPN, 1961. 846 s.
• Kingslake, R.: Applied Optics and Optical Engineering. Vol. V (Optical Instruments). New York: Academic Press, 1969. 382 s.
• BALÍK, J. and J. BOBEK. Technický sborník oční optiky. Edited by J. Polášek. 2. vyd. Praha: Oční optika. 579 s. 1975. info

Teaching methods

laboratory exercises, group projects, class discussion

Assessment methods

class exercises, credit

Language of instruction

Czech

Further comments (probably available only in Czech)

The course is taught annually.
Information on the extent and intensity of the course: 15.

Listed among pre-requisites of other courses

• BOBP0521 Bachelor's Thesis I
  BOOP0422p&&BOOP0422c&&BOBC0422p&&BOBC0422c&&BOBT0422p&&BOBT0422c&&BOKV0431p&&BONR0442p&&BONR0442c  
• BOFP051c Ophthalmological Devices - practice
  (BOOP0422p && BOFO0333p && BOOF041p && BOKV0431p && BOOP0422c) || (BTSR0432p && BTPX0431c)  
• BOFP051p Ophthalmological Devices - lecture
  (BOOP0422p && BOFO0333p && BOOF041p && BOKV0431p && BOOP0422c) || (BTSR0432p && BTPX0431c)  

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