1. THIRD CYCLE - DOCTORATE DEGREE
  2. THE GRADUATE SCHOOL OF NATURAL AND APPLIED SCIENCES
  3. PHYSICS DEPARTMENT
  4. 1761 Physics PhD
Course Information Course Learning Outcomes Course's Contribution To Program ECTS Workload Course Details
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COURSE INFORMATION
Course CodeCourse TitleL+P HourSemesterECTS
FIZ 555QUANTUM COMPUTATION THEORY3 + 01st Semester7,5

COURSE DESCRIPTION
Course Level Doctorate Degree
Course Type Elective
Course Objective The goal of this course is to bridge the gap between popular science articles and advanced undergraduate texts, making some of the more technical aspects of quantum computing accessible to high school students, early undergraduates, or the scientifically literate general public.
Course Content Introduction and overview, The density operator, The Schmidt decomposition and purifications, EPR and the Bell inequality, Introduction to computer science, Quantum circuits, The quantum Fourier transform, Quantum search algorithms, Guiding principles and conditions for quantum computation, Quantum computers: physical realization
Prerequisites No the prerequisite of lesson.
Corequisite No the corequisite of lesson.
Mode of Delivery Face to Face

COURSE LEARNING OUTCOMES
1Dirac formulation of quantum physics
2Computer science
3Quantum circuits
4Physical realization of quantum computers

COURSE'S CONTRIBUTION TO PROGRAM
PO 01PO 02PO 03PO 04PO 05PO 06PO 07PO 08PO 09
LO 00122 3  145
LO 0022345 3443
LO 003322242354
LO 004223352333
Sub Total9991397111615
Contribution222322344

ECTS ALLOCATED BASED ON STUDENT WORKLOAD BY THE COURSE DESCRIPTION
ActivitiesQuantityDuration (Hour)Total Work Load (Hour)
Course Duration (14 weeks/theoric+practical)14342
Hours for off-the-classroom study (Pre-study, practice)14684
Mid-terms13030
Final examination13939
Total Work Load

ECTS Credit of the Course





195

7,5
COURSE DETAILS
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L+P: Lecture and Practice
PQ: Program Learning Outcomes
LO: Course Learning Outcomes