Teaching

Lectures Link to heading

PhD lectures Link to heading

Introduction to Quantum Computing Link to heading

PhD in Physics | 1.5 ECTS | Spring Semester

This course provides a comprehensive introduction to quantum computing. Students learn the fundamentals of qubits, quantum gates, and quantum circuits, along with an overview of existing quantum hardware architectures. Key topics include current challenges in quantum computing, such as circuit compilation and error mitigation, as well as major quantum algorithms, including Shor’s algorithm, Grover’s algorithm, QAOA, and quantum machine learning. Additional modules introduce the use of quantum simulators and real quantum computers, quantum computational complexity, quantum cryptography, quantum error correction, and quantum annealing. PhD in Physics programme

Msc lectures Link to heading

“Introduzione al quantum computing” Link to heading

Master’s Degree in Phyisics | 6 ECTS | Spring Semester

The knowledge acquired during the course will cover the fundamental concepts of quantum computing, the most important quantum algorithms, and the implementation aspects of quantum computing systems. This knowledge will enable students to address and solve computational problems using quantum computers, design, implement, and execute quantum circuits, and use Python to develop and run quantum circuits as well as analyse the results obtained.

Course page: “Introduzione al quantum computing”

Propedeutic Lectures Link to heading

Bsc lectures Link to heading

“Meccanica Quantistica” Link to heading

Bachelor’s Degree in Physics | 12 ECTS | Full-year course

The course provides students with the theoretical foundations and mathematical tools required to solve the main problems of introductory Quantum Mechanics. By the end of the course, students will have acquired knowledge of the eigenvalue equations for angular momentum operators, the principal techniques for solving second-order differential equations, and the exact solutions of the Schrödinger equation for central potentials.

Course page: Meccanica Quantistica