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GRADUATE INSTITUTE of NATURAL and APPLIED SCIENCES / DEPARTMENT of PHYSICS
Doctorate
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GRADUATE INSTITUTE of NATURAL and APPLIED SCIENCES / DEPARTMENT of PHYSICS / Doctorate
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FIZL7193Quantum Computing Theory3+0+0ECTS:7.5
Year / SemesterFall Semester
Level of CourseThird Cycle
Status Elective
DepartmentDEPARTMENT of PHYSICS
Prerequisites and co-requisitesNone
Mode of Delivery
Contact Hours14 weeks - 3 hours of lectures per week
LecturerProf. Dr. Ahmet Hakan YILMAZ
Co-LecturerAssoc.Prof.Dr.Mehmet Demirci
Language of instructionTurkish
Professional practise ( internship ) None
 
The aim of the course:
Learning quantum computaing theory
 
Programme OutcomesCTPOTOA
Upon successful completion of the course, the students will be able to :
PO - 1 : learn quantum computaing theory2,4,91,3,
PO - 2 : learn quantum computers, quantum computing and basics of quantum mechanics 2,4,91,3,
CTPO : Contribution to programme outcomes, TOA :Type of assessment (1: written exam, 2: Oral exam, 3: Homework assignment, 4: Laboratory exercise/exam, 5: Seminar / presentation, 6: Term paper), PO : Learning Outcome

 
Contents of the Course
Basic Concepts- The circuit model of computation- A lineer algebra formulation of the circuit model- Reversible computation- Fundamental Quantum Theory - Quantum states- Observables - Measuring - Dynamics - Pauli matrices - Graham-Schmidt procedure - Assembling quantum systems - Dirac Notation- Qubits and its Properties- Bloch sphere- Examples for the Quantum Systems- Classical and Quantum Computing Models- Bell's inequality - Partial trace - Entanglement - Measures of entanglement - Schmidt measure - Von Neumann entropy of the subsystem - Negativity - State purification - Quantum Gates and Circuits - Single qubit gates - two qubit gates - Three qubit gates - Quantitative measures of quality of a circuits - Circuits optimization rules - Moving rule.
 
Course Syllabus
 WeekSubjectRelated Notes / Files
 Week 1Quantum computers and quantum computing
 Week 2Basic quantum theory
 Week 3Basic quantum theory (Continues)
 Week 4Dirac notation
 Week 5Qubits and its properties
 Week 6Bloch sphere
 Week 7Quantum correlations
 Week 8midterm exam
 Week 9Bell inequalities
 Week 10Quantum system realizations- Rabi oscillations
 Week 11Quantum system realizations- NMR and MRI
 Week 12Classical computing models
 Week 13Quantum computing models
 Week 14Quantum gates
 Week 15Quantum circuits
 Week 16Circuit optimization rules
 
Textbook / Material
 
Recommended Reading
 
Method of Assessment
Type of assessmentWeek NoDate

Duration (hours)Weight (%)
Mid-term exam 8 1.5 30
In-term studies (second mid-term exam) 12 1.5 20
End-of-term exam 16 1.5 50
 
Student Work Load and its Distribution
Type of workDuration (hours pw)

No of weeks / Number of activity

Hours in total per term
Yüz yüze eğitim 3 14 42
Sınıf dışı çalışma 1 13 13
Laboratuar çalışması 2 7 14
Arasınav için hazırlık 6 7 42
Arasınav 2 1 2
Uygulama 3 4 12
Klinik Uygulama 0 0 0
Ödev 3 10 30
Proje 8 7 56
Kısa sınav 2 7 14
Dönem sonu sınavı için hazırlık 0 0 0
Dönem sonu sınavı 0 0 0
Diğer 1 0 0 0
Diğer 2 0 0 0
Total work load225