SYLLABUS
COURSE TITLE
FACULTY/INSTITUTE
Laser Technology
FACULTY OF MATHEMATICS AND NATURAL
SCIENCES
CENTER
OF
MICROELECTRONICS
AND
NANOTECHNOLOGY
COURSE CODE
DEGREE PROGRAMME
FIELD OF STUDY
DEGREE LEVEL
FORMA
MODE
MATERIALS ENGINEERING
I
FULL-TIME
COURSE FORMAT
YEAR AND SEMESTER
NAME OF THE TEACHER
STUDIÓW/STUDY
II YEAR, IV SEMESTER
IRENEUSZ STEFANIUK
COURSE OBJECTIVES
FORMATION AND PROPERTIES OF LASER RADIATION, MODES, BREADTH SPECTRAL LINE.
OPTICALLY PUMPING, EFFICIENCY OPTIMIZATION. BEAM SHAPING BY OPTICAL
CIRCUITS, QUALITY FACTOR RESONATOR MODULATION. PROPERTIES OF DIES AND
ACTIVATORS, ENERGY STRUCTURES. CHARACTERISTIC OF CRYSTAL BREEDING
METHODS. STRUCTURE AND PROPERTIES OF ELECTED OXIDE CRYSTAL. THE MOST
IMPORTANT STANDARD LASERS ON SOLID STATE MATERIAL. SEMICONDUCTOR LASERS.
OTHER TYPES OF LASERS: CHEMICAL, FIBER LASERS, ALTERATIVE LASERS. DEVICES OF
FIBER OPTICS TECHNOLOGY. ELECTED APPLICATIONS OF LASER IN TECHNIQUE, SCIENCE
AND MEDICINE.
PREREQUISITES
LEARNING OUTCOMES
BASIC KNOWLEDGE OF OPTICS AND SOLID STATE PHYSICS
KNOWLEDGE: • HAS SYSTEMATIC AND INCREASED THEORETICAL
GENERAL KNOWLEDGE IN THE FIELD OF PHYSICS AND ITS
TECHNICAL APPLICATIONS NECESSARY TO UNDERSTAND AND
DESCRIBE THE BASIC PHYSICAL PHENOMENA AND TO
UNDERSTAND THE ROLE OF PHYSICS IN DIFFERENT AREAS OF
TECHNOLOGY AND TECHNOLOGY IM_W02
• HAS KNOWLEDGE OF SELECTED FIELDS IN MATERIALS
TECHNOLOGY DEVELOPMENT IN THE COUNTRY AND THE WORLD
IM_W08
• HAS KNOWLEDGE OF SELECTED PROCESSES USED IN THE
MANUFACTURE OF MATERIALS IM_W09
SKILLS:
• IS ABLE TO PERFORM BASIC RESEARCH AND MEASUREMENTS OF
PHYSICAL PROPERTIES OF LASER MATERIALS IM_U08
• IS ABLE TO MAKE A SELECTION OF METHODS TO PERFORM
MEASUREMENTS AND EXPERIMENTS IN THE FIELD OF LASER
PROPERTIES OF SELECTED MATERIALS AND HAS THE ABILITY TO
USE THE EXISTING NORMS AND STANDARDS FOR MATERIALS
IM_U10
• CAN IN ACCORDANCE WITH THE SPECIFICATIONS CREATE
TYPICAL PROCESS FOR ENGINEERING MATERIALS IM_U15
FINAL COURSE OUTPUT - SOCIAL COMPETENCES
• UNDERSTANDS THE NEED OF SKILLS IMPROVEMENT,
UNDERSTANDS THE NEED OF KNOWLEDGE AND SKILLS ADAPTION
TO CHANGES IN TECHNOLOGY IM_K01
COURSE ORGANISATION –LEARNING FORMAT AND NUMBER OF HOURS
LECTURE - 15 HOURS.
LABORATORY - 30 HOURS.
COURSE DESCRIPTION
TIMETABLE: EACH WEEK 1 HOURS FOR 15 WEEKS (ONE SEMESTER)
PHYSICAL FACILITY AMPLIFYING LUMINOUS RADIATION: FILLED ENERGY BAND, IMPULSIVE
EMISSION, FORCED EMISSION, RADIATION ABSORPTION, INVERSION FILLED AND AMPLIFYING
RADIATION.
LASERS BUILDING. LASER BEAM CHARACTERISTICS.
LASER RADIATION SPECTRUM, MODES. BREADTH SPECTRAL LINES, CURVE AMPLIFYING
SHAPE.
OPTICAL PUMPING SCHEMES, 2 AND 3 LEVEL FACILITY, RUBY LASERS AND AERIFORM LASERS
PUMPING , OPTIMIZING EFFICIENCY QUANTUM SYSTEM.
OPTICAL LOOP FEEDBACK – LASERS RESONATOR. CONDITIONS LASER GENERATION.
AMPLIFYING SATURATION EFFECT, OUTPUT LASER POWER. LASER BEAM ENERGETIC PARAMETERS.
LASER BEAM SHAPING BY OPTICAL SYSTEMS, LASER CLASSIFICATION, METHODS OF
REALIZATION QUALITY FACTOR RESONATOR MODULATION, LASER ON SOLID STATE MATERIAL,
GEOMETRICALLY AND SPECTRALLY ACCORDANT.
ACTIVE FACILITIES LASER ON SOLID STATE MATERIAL. GENERAL DIES PROPERTIES AND
THEIRS ACTIVATORS. BASIC PROPERTIES AND REQUIREMENTS FOR LASER ON SOLID STATE
MATERIAL DIES. ACTIVATORS ION AND THEIR PROPERTIES. IONS ENERGY LEVEL IN CRYSTALS.
CRYSTALS TECHNIQUE GROWTH. CHARACTERISTIC OF CHOSEN OXIDE CRYSTALS USING AS
LASERS ON SOLID STATE MATERIAL DIES. STRUCTURE AND PROPERTIES ELECTED OXIDE CRYSTALS:
GGG, YAP.
THE MOST IMPORTANT STANDARD LASERS ON SOLID STATE MATERIAL: RUBY LASER,
NEODYMIUM LASER. LASERS OF CRYSTALS ACTIVATED BY IONS ER, HO, TM, PR, YB.
MULTIFUNCTIONAL SCHEMATIC GENERATION.
SEMICONDUCTOR LASERS. COMPARISON DIODE AND LASER. TUNABLE MIKROLASERS.
OTHER LASERS TYPES: CHEMICAL, X-RAY, AND FIBER.
TUNABLE LASERS: DISCRETE TUNABLE, TUNABLE IN BEAMS AREA. COLOR LASERS: BROAD
TUNABLE.
DEVICES OF FIBER OPTICS TECHNOLOGY: MANUFACTURING, SPECIES, PROPERTIES,
CHARACTERISTIC MEASURE. FIBERS COUPLING.
ELECTED APPLICATIONS OF LASER IN TECHNIQUE, SCIENCE AND MEDICINE. APPLICATION OF
LASER ON SOLID STATE MATERIAL. LASER PROCESSING MATERIAL. ENVIRONMENT PROTECTION
(LIDAR), MEDICINE. DETECTION IONIZING RADIATION. HOLOGRAPHIC INFORMATION
TRANSCRIPTION.
LABORATORY EACH WEEK 2 HOURS FOR 15 WEEKS (ONE SEMESTER)
1.
INTRODUCTION TO THE SAFE WORK AND SERVICING OF LASERS. (2HOURS)
2.
TESTING PROPERTIES OF HE-NE LASER RADIATION. (4H)
3.
TESTING COHERENCE OF HE-NE LASER LIGHT. (4H)
4.
TESTING SHAPE OF EMISSION LINE CAUSED BY SEMICONDUCTOR LASER.(4H)
5.
PARTING IMPULSE IN FIBER OPTICS.(4H)
6.
7.
8.
MEASUREMENT OF LIGHT VELOCITY.(4H)
SEMICONDUCTOR LASER AND ITS PROPERTY.(4H)
TESTING OF OPTOELECTRONIC COMPONENTS.(4H)
METHODS OF INSTRUCTION
REQUIREMENTS AND ASSESSMENTS
GRADING SYSTEM
TOTAL STUDENT WORKLOAD
NEEDED TO ACHIEVE EXPECTED
LEARNING OUTCOMES EXPRESSED
IN TIME AND ECTS CREDIT POINTS
LANGUAGE OF INSTRUCTION
INTERNSHIP
MATERIALS
LECTURE AND MULTIMEDIA PRESENTATION,
EXERCISES IN THE LABORATORY
LECTURE: ASSESSMENT: EXAM
1. CAN TAKE THE EXAM AFTER RECEIVING CREDIT FOR
THE LAB.
2. THE EXAMINATION IS A WRITTEN TEST
EXAMINATION
LABORATORY: ASSESSMENT: CREDIT WITH A GRADE
ECTS GRADING SCALE
A – EXCELLENT (91 - 100)%
B - VERY GOOD (81 - 90)%
C – GOOD (71 - 80)%
D – SATISFACTORY (61 - 70)%
E – SUFFICIENT (51 - 60)%
F – FAIL (0 - 50)%
LECTURE 15 HOURS
LABORATORY 30 HOURS
PREPARATION FOR THE LAB 25 HOURS
PARTICIPATION IN CONSULTATIONS 2 HOURS
TIME TO WRITE THE REPORT 23 HOURS
EXAM PREPARATION 30 HOURS
PARTICIPATED IN THE EXAM 2 HOURS
TOTAL HOURS 127
ECTS 5
ENGLISH
PRIMARY OR REQUIRED BOOKS/READINGS:
1.WILLIAM T. SILFVAST , LASER FUNDAMENTALS,
UNIVERSITY OF CENTRAL FLORIDA
2.B. ZIĘTEK, OPTOELEKTRONIKA, WYDAWNICTWO
UMK, TORUŃ 2004.
3. I. STEFANIUK, TECHNOLOGIE LASEROWE, 2014
SUPPLEMENTAL OR OPTIONAL BOOKS/READINGS:
1. CSELE, MARK (2004). FUNDAMENTALS OF LIGHT
SOURCES AND LASERS, WILEY. ISBN 0-471-47660-9
2. KOECHNER, WALTER (1992). SOLID-STATE LASER
ENGINEERING, 3RD ED., SPRINGER-VERLAG. ISBN 0387-53756-2
3. SIEGMAN, ANTHONY E. (1986). LASERS, UNIVERSITY
SCIENCE BOOKS
4. SCIENTIFIC ARTICLES