**Specialization: Master in Particle Physics**

*Semester 1 (fall): 30 ECTS*

Advanced particle physics 1

Detectors and accelerators

Quantum field theory

Particle physics seminar**Optional courses **

*Semester 2 (spring): 30 ECTS*

Selected topics on particle physics

Advanced particle physics 2

Quantum field theory

Particle physics seminar**Optional courses**

*Semesters 3 and 4:* Master work (60 ECTS)

**Specialization: Master in Applied Physics***Semester 1 (fall): 30 ECTS*

Atmospheric science

Laser-matter interactions

Optics and lasers**Optional courses**

*Semester 2 (spring): 30 ECTS*Quantum optics

One of the following courses:

Non-locality

Biophotonics

Nonlinear system

Quantum information theory

**Optional courses**

*Semesters 3 and 4:* Master work (60 ECTS)

Specialization: Master in Astroparticles and Cosmology

*Semesters 3 and 4:* Master work (60 ECTS)

**Specialization: Master in Quantum Matter Physics**

*Semester 1 (fall): 30 ECTS*

Advanced solid state physics: Phase Transitions

Adv solid state physics: Electronic Properties of Solids A

Quantum matter physics seminar **Optional courses**

*S**emester 2 (spring): 30 ECTS*

Advanced solid state physics: Superconductivity

Adv solid state physics: Electronic Properties of Solids B

Quantum matter physics seminar **Optional courses**

*Semesters 3 and 4: Master work (60 ECTS)*

**Specialization: Master in Theoretical Physics***Semester 1 (fall): 30 ECTS*

Quantum field theory

Advanced solid state physics: phase transitions

General relativity**Optional courses**

*Semester 2 (spring): 30 ECTS*

Quantum field theory*One of the following courses: *

Cosmology

Group theory for physicists

Classical stochastic methods

Quantum transport and topological insulators**Optional courses**

*Semesters 3 and 4:* Master work (60 ECTS)

**Optional courses**: *Each specialized course listed above can be taken as an optional course of another specialization*

Applied quantum optics / Advanced modeling of environment and climate

Introduction to the physics of materials / Introduction to nanoelectronics / Superconductivity and its applications

Crystallography and diffraction / Diffraction methods : single crystals and polycrystals / Radioprotection

Modeling and simulation of natural phenomena

Particles in the universe / Physical processes in astrophysics 1

Observational techniques and methods in modern astronomy

Modern planetology: from the solar system to extra-solar planets

History and philosophy of quantum mechanics