Description of Individual Course Units
Course Unit CodeCourse Unit TitleType of Course UnitYear of StudySemesterNumber of ECTS Credits
9101045992016Advance Atomic and Molecular PhysicsElective118
Level of Course Unit
Second Cycle
Objectives of the Course
To acquire knowledge on the fundamental concepts of the atomic physics with one-electron atom. To learn many electron atoms and solution of them.
Name of Lecturer(s)
Doç. Dr. Cemal PARLAK
Learning Outcomes
1Learning of the fundamental concepts of the atomic physics with one-electron atom.
2Interaction of one-electron atom with the electromagnetic radiation.
3Defining the fundamental concepts for two electron atoms.
4Interaction of two-electron atom with the electromagnetic radiation.
5To have knowledge on the many electron atoms and solution of them.
Mode of Delivery
Face to Face
Prerequisites and co-requisities
Recommended Optional Programme Components
Yok
Course Contents
This course includes one-electron atom and many electron atoms, and interaction of them with the electromagnetic radiation.
Weekly Detailed Course Contents
WeekTheoreticalPracticeLaboratory
1Introduction
2Electrons, photons and atoms
3The elements of quantum mechanics
4One Electron Atoms
5Interaction of one-electron atoms with electromagnetic radiation
6One electron atoms: Fine structure, hyperfine structure and interaction with external electric and magnetic fields
7Schrödinger wave equation for two electron atoms, Spin wave functions and Pauli exclusion prıncıiple, Ground state of the two electron atom
8Mid-term Exam
9The independent particle model, Ground state of two electron atoms, excited states, Auger effect
10The central field approximation, the periodic systems of the elements.
11Thomas-Fermi atomic model, The Hatrree-Fock method and self consistent field, corrections to the central field approximation
12The interaction of many-electron atoms with electromagnetic fields: selection rules, Alkalis spectra, Helium and the alkaline earths
13The interaction of many-electron atoms with electromagnetic fields: multiplet structure, Zeeman effect the quadratic Stark effect-ray spectra
14Molecular structure: General nature, The Born-Oppenheimer separation for the diatomic molecules, rotation and vibration of diatomic molecules
15Molecular structure: Electronic structure of diatomic molecules, poly atomic molecules structure
16Final Exam
Recommended or Required Reading
Planned Learning Activities and Teaching Methods
Assessment Methods and Criteria
Term (or Year) Learning ActivitiesQuantityWeight
Midterm Examination1100
SUM100
End Of Term (or Year) Learning ActivitiesQuantityWeight
Final Sınavı1100
SUM100
Term (or Year) Learning Activities40
End Of Term (or Year) Learning Activities60
SUM100
Language of Instruction
Belirsiz
Work Placement(s)
Workload Calculation
ActivitiesNumberTime (hours)Total Work Load (hours)
Midterm Examination122
Final Examination122
Attending Lectures14342
Report Preparation22550
Report Presentation212
Individual Study for Mid term Examination16060
Individual Study for Final Examination17070
TOTAL WORKLOAD (hours)228
Contribution of Learning Outcomes to Programme Outcomes
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1
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9
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10
PO
11
LO144111311111
LO244111311111
LO344111311111
LO444111311111
LO544111311111
* Contribution Level : 1 Very low 2 Low 3 Medium 4 High 5 Very High
 
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