INTRODUCTION TO QUANTUM COMPUTING
INTRODUCTION TO QUANTUM COMPUTING
A.Y. | Credits |
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2022/2023 | 4 |
Lecturer | Office hours for students | |
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Catia Grimani |
Teaching in foreign languages |
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Course entirely taught in a foreign language
English
This course is entirely taught in a foreign language and the final exam can be taken in the foreign language. |
Assigned to the Degree Course
Date | Time | Classroom / Location |
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Date | Time | Classroom / Location |
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Program
01. Lecture 1 Mechanical, electromagnetic, matter and gravitational waves
02. Lecture 2 Blacbody radiation. Planck's law. Double slit experiment. Electron diffraction and interference. Photoelectric effect. Compton scattering. X-ray properties. Atomic models. Wave-particle duality.
03. Lecture 3. Mathematical Framework of quantum mechanics. Complex numbers. Hilbert Space. Wave function. Time dependent and independent Schroedinger Equation. Matrices. Vectorial spaces. Inner and outer product. Classical and quantum calculations. Quantum gates. Superposition principle. Measurements.
04. Lecture 4. Quantum registers. Measurement of the first qubit of a two-qubit system. Entanglement. Photon polarizations. EPR paradox and the Bell's inequality. Quantum gates. X-Y-Z Pauli's gates. Hadamard gate. CNOT quantum gate. No cloning theorem. Bell's states. Qubit teleportation.
Teaching Material
The teaching material prepared by the lecturer in addition to recommended textbooks (such as for instance slides, lecture notes, exercises, bibliography) and communications from the lecturer specific to the course can be found inside the Moodle platform › blended.uniurb.it
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