Laurea Magistrale in Fisica
ПРОДОЛЖИТЕЛЬНОСТЬ
2 Years
ЯЗЫКИ
Итальянский
ТЕМП
На постоянной основе
КРАЙНИЙ СРОК ПОДАЧИ ЗАЯВОК
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САМАЯ РАННЯЯ ДАТА НАЧАЛА
Oct 2025
ПЛАТА ЗА ОБУЧЕНИЕ
EUR 156
ФОРМАТ ОБУЧЕНИЯ
В кампусе
Галерея
Прием
Учебный план
Curriculum: Specialist Curriculum
Compulsory Activity
- Classical Electrodynamics
- English Proficiency B2
- Informatics Ability
- Final Exam
- Mandatory Training Internship
Каратеризанти
- Data Structures and Algorithms of Physics of Data
- Electronics 1
- Electronics Laboratory
- Environmental Physics
- Health Physics
- Imaging Techniques for Biomedical Applications
- Optical Analysis for Cultural Heritages
- Accelerator Physics 1
- Dosimetry
- Electronics 2
- Elements of Superconductivity and Physics of High Field Magnets
- Modelling Applications for Environmental and Cultural Heritage Physics
- Radiobiology
Theory and Fundamentals of Physics
- Many Body Theory 1
- Many Body Theory 2
- Mathematical Methods in Physics: Differential Equations 1
- Mathematical Methods in Physics: Geometry and Group Theory 1
- Mathematical Methods in Physics: Geometry and Group Theory 2
- Quantum Field Theory 2
- Statistical Mechanics 1
- Statistical Quantum Field Theory 1
- Theory of Quantum Open Systems
- Gravity and Superstrings 1
- Quantum Field Theory 1
- Statistical Physics of Complex Systems
- Theory of Fundamental Interactions 1
Microphysics and Structure of Matter Field
- Accelerator Physics Laboratory
- Applied Superconductivity Laboratory
- Astroparticle Physics
- Coherence and Control of Quantum System
- Electronic Structure
- Electroweak Interactions
- Interaction and Detection of Nuclear Radiation
- Machine Learning
- Magnetic Properties and Fine Analysis of Low-Dimensional Matter
- Optics Laboratory and Application
- Particle Physics
- Physics Protein 1
- Probability and Statistics
- Quantum Optics
- Quantum Optics Laboratory
- Quantum Theory of Matter 2
- Semiconductor Physics
- Surface Physics 1
- Advanced Statistical Physics
- Laser Physics Laboratory 1
- Nanoscale Solid State Physics
- Nuclear Electronics
- Nuclear Physics
- Nuclear Spectroscopy Laboratory
- Optics 1
- Particle Detectors
- Physics of Electronic Devices
- Physics of Solids 1
- Plasma Physics and Controlled Fusion
- Plasma Physics Laboratory 1
- Quantum Information Theory
- Radioactivity
Astrophysics, Geophysics and Space Science Field
- Astrophysical Fluid Dynamics
- General Astrophysics 1
- Introduction to Continuum Physics
- Nuclear Relativistic Astrophysics 1
- Physics of the Hydrosphere and the Cryosphere
- Radio Astronomy 1
- Atmospheric Physics
- Cosmology 1
- Dynamics of Galaxies
- Extragalactic Astrophysics
- General Astrophysics 2
- Laboratory of Data Modelling
- Tectonophysics
Аффини Интегратив
- Advanced Gravitational Physics
- Algebraic Topology
- Atomic Physics
- Biophysics
- Cosmology 2
- Data Analytics, Forward and Inverse Modeling: Geophysical and Environmental Fluid Dynamics
- Differential Geometry
- Digital Electronics
- Foundations of Energy Production
- History of Physics
- Instrumentation Applied to Medicine
- Introduction to Astrophysics
- Introduction to General Relativity
- Methods of Data Analysis
- Nuclear Relativistic Astrophysics 2
- Particle Physics Laboratory 1
- Perturbation Theory of Hamiltonian Systems
- Physics Laboratory of Climatology and Atmospheric Physics
- Preparation of Didactical Experiences 1
- Quantum Computing
- Simulation of Condensed Matter and Biosystems
- Theory of Fundamental Interactions 2
- Thin Film and Nanostructures Characterization
- Computational Physics Laboratory
- Condensed Matter Physics Laboratory 2
- Deep Learning with Applications
- Dynamical Systems 1
- Earth Physics Laboratory
- Environmental Physics Laboratory
- Foundations in Electron Microscopy (EM) and Its Related Spectroscopies
- Foundations of Physics
- Foundations of Quantum Mechanics
- Geometry 2
- Gravity and Superstrings 2
- Health Physics Laboratory
- Introduction to Health and Medical Physics
- Laboratory of Space Instrumentation (1)
- Liquid-State and Soft-Matter Physics
- Mathematical Analysis 4
- Nanoparticle Physics
- Nonlinear Optics and Quantum Photonics
- Nuclear Magnetic Resonance Techniques: Physics Principles and Applications
- Numerical Simulation Laboratory
- Numerical Tecniques for Photorealistic Image Generation
- Particle Detectors Laboratory Instrumentation
- Phenomenology of the Standard Model of Particle Physics
- Physics of Medical Imaging
- Preparation of Didactical Experiences 2
- Quantum Walks
- Radiative Processes in Astrophysics
- Radio Astronomy 2
- Statistical Quantum Field Theory 2
- Stochastic Processes
Curriculum: Multi-Sector Curriculum
Compulsory activity
- Classical Electrodynamics
- English Proficiency B2
- Informatics Ability
- Final Exam
Каратеризанти
- Electronics 1
- Electronics Laboratory
- Environmental Physics
- Health Physics
- Imaging Techniques for Biomedical Applications
- Optical Analysis for Cultural Heritages
- Accelerator Physics 1
- Dosimetry
- Electronics 2
- Elements of Superconductivity and Physics of High Field Magnets
- Modelling Applications for Environmental and Cultural Heritage Physics
- Radiobiology
- Theory and Fundamentals of Physics
- History of Physics
- Preparation of Didactical Experiences 1
- Preparation of Didactical Experiences 2
- Microphysics and Structure of Matter
- Accelerator Physics Laboratory
- Applied Superconductivity Laboratory
- Astroparticle Physics
- Coherence and Control of Quantum System
- Electronic Structure
- Electroweak Interactions
- Interaction and Detection of Nuclear Radiation
- Magnetic Properties and Fine Analysis of Low-Dimensional Matter
- Optics Laboratory and Application
- Particle Physics
- Physics Protein 1
- Quantum Optics
- Quantum Optics Laboratory
- Quantum Theory of Matter 2
- Semiconductor Physics
- Surface Physics 1
- Advanced Statistical Physics
- Laser Physics Laboratory 1
- Nanoscale Solid State Physics
- Nuclear Electronics
- Nuclear Physics
- Nuclear Spectroscopy Laboratory
- Optics 1
- Particle Detectors
- Physics of Electronic Devices
- Physics of Solids 1
- Plasma Physics and Controlled Fusion
- Plasma Physics Laboratory 1
- Quantum Information Theory
- Radioactivity
Astrophysics, Geophysics and Space Science
- Astrophysical Fluid Dynamics
- General Astrophysics 1
- Introduction to Continuum Physics
- Nuclear Relativistic Astrophysics 1
- Physics of the Hydrosphere and the Cryosphere
- Radio Astronomy 1
- Atmospheric Physics
- Cosmology 1
- Dynamics of Galaxies
- Extragalactic Astrophysics
- General Astrophysics 2
- Tectonophysics
- AFFINI E INTEGRATIVE
- Advanced Gravitational Physics
- Algebraic Topology
- Atomic Physics
- Biophysics
- Cosmology 2
- Data Analytics, Forward and Inverse Modeling: Geophysical and Environmental Fluid Dynamics
- Data Structures and Algorithms of Physics of Data
- Differential Geometry
- Digital Electronics
- Foundations of Energy Production
- Instrumentation Applied to Medicine
- Introduction to Astrophysics
- Introduction to General Relativity
- Machine Learning
- Many Body Theory 1
- Many Body Theory 2
- Mathematical Methods in Physics: Differential Equations 1
- Mathematical Methods in Physics: Geometry and Group Theory 1
- Mathematical Methods in Physics: Geometry and Group Theory 2
- Methods of Data Analysis
- Nuclear Relativistic Astrophysics 2
- Particle Physics Laboratory 1
- Perturbation Theory of Hamiltonian Systems
- Physics Laboratory of Climatology and Atmospheric Physics
- Probability and Statistics
- Quantum Computing
- Quantum Field Theory 2
- Simulation of Condensed Matter and Biosystems
- Statistical Mechanics 1
- Statistical Quantum Field Theory 1
- Theory of Fundamental Interactions 2
- Theory of Quantum Open Systems
- Thin Film and Nanostructures Characterization
- Computational Physics Laboratory
- Condensed Matter Physics Laboratory 2
- Deep Learning with Applications
- Dynamical Systems 1
- Earth Physics Laboratory
- Environmental Physics Laboratory
- Foundations in Electron Microscopy (EM) and Its Related Spectroscopies
- Foundations of Physics
- Foundations of Quantum Mechanics
- Geometry 2
- Gravity and Superstrings 1
- Gravity and Superstrings 2
- Health Physics Laboratory
- Introduction to Health and Medical Physics
- Laboratory of Data Modelling
- Laboratory of Space Instrumentation (1)
- Liquid-State and Soft-Matter Physics
- Mathematical Analysis 4
- Nanoparticle Physics
- Nonlinear Optics and Quantum Photonics
- Nuclear Magnetic Resonance Techniques: Physics Principles and Applications
- Numerical Simulation Laboratory
- Numerical Tecniques for Photorealistic Image Generation
- Particle Detectors Laboratory Instrumentation
- Phenomenology of the Standard Model of Particle Physics
- Physics of Medical Imaging
- Quantum Field Theory 1
- Quantum Walks
- Radiative Processes in Astrophysics
- Radio Astronomy 2
- Statistical Physics of Complex Systems
- Statistical Quantum Field Theory 2
- Stochastic Processes
- Theory of Fundamental Interactions 1
Результат программы
В частности, программа разработана со следующими целями:
- Обеспечить прочную базу знаний в области экспериментально-прикладной области, теории и основ физики, микрофизики, структуры материи, астрофизики/геофизики/космической науки.
- Готовьте выпускников, которые являются гибкими и имеют сильные способности к решению проблем.
- Готовить выпускников, способных описывать природные явления строго научным образом, с использованием математического и статистического подхода, а также работать с высокой степенью автономии, принимая на себя ответственность за проекты, даже в управленческом и директивном качестве.
- Предоставление инструментов для научной коммуникации и распространения на высоком уровне.
- Предоставить выпускникам глубокие знания содержания и методологий, необходимых для преподавания.
Стоимость обучения по программе
Карьерные возможности
Выпускники обычно практикуют свою профессию в промышленности, а также в государственных и частных организациях в таких структурах, как:
- Исследовательские центры и лаборатории
- Больницы и медицинские учреждения, в которых используются методы диагностики, терапии и радиационной защиты.
- Астрономические обсерватории
- Музеи и другие центры, занимающиеся распространением научной информации.
- Банки и страховые компании
- Структуры, занимающиеся разработкой математико-статистических моделей явлений.
- Структуры, занимающиеся использованием и разработкой сложных систем и приборов.
- Структуры, занимающиеся восстановлением художественных ценностей и защитой объектов окружающей среды.
- Электростанции (включая, например, атомные электростанции)
- Структуры для сбора и обработки данных
Выпускники, имеющие достаточное количество кредитов по соответствующим группам отраслей, смогут в соответствии с требованиями действующего законодательства участвовать в вступительных испытаниях на курсы подготовки среднего педагогического образования.
Выпускники, заинтересованные в возможностях, требующих дальнейшего обучения, продолжат обучение в исследовательских докторантах или специализированных школах.