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Studiengang

Physik

Universität Heidelberg / Universität Heidelberg
Bachelor of Science, Master of Science / B.Sc., M.Sc.
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Abschluss
Bachelor of Science
Start
Wintersemester
Abschluss
Master of Science
Start
Winter- und Sommersemester
Universität Heidelberg
Bachelor of Science (ID 31463)

1. Semester

  • Analysis I (8 CP, W)
  • Basiskurs für ein nachhaltiges Studium (4 CP)
  • Experimentalphysik I (7 CP)
  • Lineare Algebra I (8 CP)
  • Theoretische Physik I (8 CP)
  • Wahlpflicht (46 CP, W)
    • Advanced Atomic, Molecular and Optical Physics (8 CP, W)
    • Algorithmen und Datenstrukturen (7 CP, W)
    • Anorganisch-Chemisches Praktikum für Physiker (6 CP, W)
    • Atmospheric Physics (4 CP, W)
    • Betriebssysteme und Netzwerke (7 CP, W)
    • Blockkurs: Datenanalyse (1 CP, W)
    • Blockkurs: Programmieren in C++ (1 CP, W)
    • Blockkurs: „Python: programming for scientists“ (2 CP, W)
    • Computational Statistics and Data Analysis (6 CP, W)
    • Condensed Matter Physics (8 CP, W)
    • Corporate Governance (8 CP, W)
    • Cosmology (6 CP, W)
    • Digital Hardware Design (6 CP, W)
    • Einführung in Datenbanken (4 CP, W)
    • Einführung in die Allgemeine Chemie (6 CP, W)
    • Einführung in die Astronomie (10 CP, W)
    • Einführung in die Biophysik + Experimentelle Methoden der Biophysik I (2 CP, W)
    • Einführung in die Computer-Physik (6 CP, W)
    • Einführung in die Numerik (8 CP, W)
    • Einführung in die Physiologie und medizinische Biophysik (4 CP, W)
    • Einführung in die Politische Ökonomie (8 CP, W)
    • Einführung in die Praktische Informatik (7 CP, W)
    • Einführung in die Theoretische Informatik (7 CP, W)
    • Einführung in Software Engineering (4 CP, W)
    • Elektronik & Elektronik-Praktikum (7 CP, W)
    • Environmental Physics (8 CP, W)
    • Experimental Optics and Photonics (4 CP, W)
    • Experimentelle Methoden der Biophysik (2 CP, W)
    • Forschungsseminar (2 CP, W)
    • Galactic and Extragalactic Astrophysics (6 CP, W)
    • General Relativity (8 CP, W)
    • Geowissenschaften 1a: System Erde (5 CP, W)
    • Geowissenschaften 1b: Bausteine der Erde (2 CP, W)
    • Geowissenschaften 1c: Einführung in die Paläontologie (3 CP, W)
    • Geowissenschaften 2a: Kristallographie (1 CP, W)
    • Geowissenschaften 2b: Minerale und Gesteine (2 CP, W)
    • Geowissenschaften 2c: Lichtmikroskopie I (2 CP, W)
    • Geowissenschaften 2d: Lichtmikroskopie II (4 CP, W)
    • Grundlagen der Technischen Informatik (7 CP, W)
    • Grundlagen der Zell- und Molekularbiologie (6 CP, W)
    • Informatikpraktikum (4 CP, W)
    • Introduction to Biophysics (6 CP, W)
    • Kurs für Basiskurs-Tutoren und Durchführung eines Basiskurs-Tutoriums (3 CP, W)
    • Low Temperature Physics (8 CP, W)
    • Machine Learning (8 CP, W)
    • Mathematischer Vorkurs (3 CP, W)
    • Medical Physics 1 (6 CP, W)
    • Medical Physics 2 (6 CP, W)
    • Methoden der molekularen Zellbiologie (7 CP, W)
    • Mikroökonomik (8 CP, W)
    • Observational Methods (6 CP, W)
    • Parallel Computer Architecture (6 CP, W)
    • Particle Physics (8 CP, W)
    • Partielle Differentialgleichungen (8 CP, W)
    • Physics of Aquatic Systems (4 CP, W)
    • Physics of Climate (4 CP, W)
    • Physics of Particle Detectors (4 CP, W)
    • Physics of Terrestrial Systems (4 CP, W)
    • Physik Vermittlungskompetenz (Didaktik) (1 CP, W)
    • Physik Vermittlungskompetenz (Praxis) (1 CP, W)
    • Practical Course: Numerical Methods (3 CP, W)
    • Practical Course: Statistical Methods (3 CP, W)
    • Projektpraktikum (4 CP, W)
    • Quantum Field Theory 1 (8 CP, W)
    • Quantum Field Theory 2 (8 CP, W)
    • Seminar Einführung in die Biophysik + Experimentelle Methoden der Biophysik I (2 CP, W)
    • Spezialvorlesung Physik (2 CP, W)
    • Stellar Astronomy and Astrophysics (6 CP, W)
    • Surfaces and Nanostructures (6 CP, W)
    • System Theory (6 CP, W)
    • Theoretical Astrophysics (8 CP, W)
    • Theoretical Statistical Physics (8 CP, W)
    • Wissenschaftliches Rechnen 1 (8 CP, W)
    • Zell- und molekularphysiologische Grundlagen der medizinischen Biophysik (4 CP, W)

2. Semester

  • Experimentalphysik II (7 CP)
  • Praktikum für Anfänger I (6 CP)
  • Theoretische Physik II (8 CP)
  • Wahlpflicht Mathematik 1 (8 CP, W)
    • Analysis II (8 CP, W)
    • Höhere Mathematik für Physiker II (8 CP, W)

3. Semester

  • Experimentalphysik III (7 CP)
  • Theoretische Physik III (8 CP)
  • Wahlpflicht Mathematik 2 (8 CP, W)
    • Analysis III (8 CP, W)
    • Höhere Mathematik für Physiker III (8 CP, W)

4. Semester

  • Experimentalphysik IV (7 CP)
  • Praktikum für Anfänger II (7 CP)
  • Theoretische Physik IV (8 CP)

5. Semester

  • Experimentalphysik V (7 CP)
  • Fortgeschrittenen-Praktkum I (4 CP)
  • Pflichtseminar (2 CP)
  • Präsentation (1 CP)

6. Semester

  • Bachelorarbeit (12 CP)
  • Fortgeschrittenen-Praktkum II (7 CP)
 
Master of Science (ID 31464)

1. Semester

  • Accelerator Physics (4 CP, W)
  • Advanced Biological Models in Radio Therapy (2 CP, W)
  • Advanced Monte Carlo Methods (3 CP, W)
  • Advanced Parallel Computing (4 CP, W)
  • Advanced Particle Physics Project at the Paul Scherrer Institut (8 CP, W)
  • Advanced Quantum Field Theory (8 CP, W)
  • Advanced Quantum Theory (4 CP, W)
  • Advanced Seminar on Astronomy or Astrophysics (6 CP, W)
  • Advanced Seminar on Biophysics (6 CP, W)
  • Advanced Seminar on Condensed Matter Physics (6 CP, W)
  • Advanced Seminar on Environmental Physics (6 CP, W)
  • Advanced Seminar on Medical Physics (6 CP, W)
  • Advanced Seminar on Modern Topics in Atomic, Molecular and Optical Physics (6 CP, W)
  • Advanced Seminar on Particle Physics (6 CP, W)
  • Advanced Seminar on Theoretical Physics (6 CP, W)
  • Advanced Topics in Particle Physics (4 CP, W)
  • Algorithms and data structures (7 CP, W)
  • Astrobiophysics III (2 CP, W)
  • Astronomical Techniques (compact) (6 CP, W)
  • Atmospheric Physics (4 CP, W)
  • Atom Light Interactions (3 CP, W)
  • Atomic and Molecular Spectroscopy (3 CP, W)
  • Atoms and Molecules in Strong Fields (3 CP, W)
  • Bio-photonics (2 CP, W)
  • Block course: Data analysis (1 CP, W)
  • Block course: Programming in C++ (1 CP, W)
  • Cellular and molecular foundations of medical biophysics (4 CP, W)
  • Computational Fluid Dynamics (4 CP, W)
  • Computational Optics (4 CP, W)
  • Computational Statistics and Data Analysis (6 CP, W)
  • Computer science laboratory (6 CP, W)
  • Computer Vision (6 CP, W)
  • Condensed Matter Theory (8 CP, W)
  • Core Courses (16 CP, W)
    • Advanced Atomic, Molecular and Optical Physics (8 CP, W)
    • Astronomical Techniques (8 CP, W)
    • Condensed Matter Physics (8 CP, W)
    • Cosmology (8 CP, W)
    • Environmental Physics (8 CP, W)
    • General Relativity (8 CP, W)
    • Particle Physics (8 CP, W)
    • Quantum Field Theory (8 CP, W)
    • Theoretical Astrophysics (8 CP, W)
    • Theoretical Statistical Physics (8 CP, W)
  • Corporate Governance (8 CP, W)
  • Cosmology (compact) (4 CP, W)
  • Course on teaching and learning (didactics) (1 CP, W)
  • Course on teaching and learning (practical) (2 CP, W)
  • Course title: Advanced Lecture on Special Topic (2 CP, W)
  • Design of VLSI Circuits using VHDL (4 CP, W)
  • Digital Circuit Technology (8 CP, W)
  • Electronic Correlations and Magnetism (8 CP, W)
  • Electronics and electronic laboratory course (7 CP, W)
  • Embedded Systems (4 CP, W)
  • Experimental Biophysics (6 CP, W)
  • Experimental Methods in Atomic & Molecular Physics (4 CP, W)
  • Experimental Optics and Photonics (4 CP, W)
  • Fundamentals of cellular and molecular biology (8 CP, W)
  • Fundamentals of Simulation Methods (8 CP, W)
  • Galactic and Extragalactic Astronomy (6 CP, W)
  • Gauge Theories, QCD (4 CP, W)
  • General chemistry (12 CP, W)
  • GPU programming (4 CP, W)
  • Higher course in analysis (8 CP, W)
  • Image Analysis (8 CP, W)
  • Introduction to applied computation (7 CP, W)
  • Introduction to Astronomy and Astrophysics (8 CP, W)
  • Introduction to computer physics (6 CP, W)
  • Introduction to databases (4 CP, W)
  • Introduction to High-Performance Computing (4 CP, W)
  • Introduction to numerical calculations (8 CP, W)
  • Introduction to physiology and medical biophysics (4 CP, W)
  • Introduction to political economics (8 CP, W)
  • Introduction to software engineering (4 CP, W)
  • Introduction to technical computation (7 CP, W)
  • Introduction to theoretical computer science (7 CP, W)
  • Inverse Problems (8 CP, W)
  • Journal Club (2 CP, W)
  • Journal Club on Astronomy or Astrophysics (2 CP, W)
  • Journal Club on Biophysics (2 CP, W)
  • Journal Club on Condensed Matter Physics (2 CP, W)
  • Journal Club on Environmental Physics (2 CP, W)
  • Journal Club on Medical Physics (2 CP, W)
  • Journal Club on Particle Physics (2 CP, W)
  • Journal Club on Theoretical Physics (2 CP, W)
  • Laboratory Course Astrophysics I (2 CP, W)
  • Laboratory Course Astrophysics II (2 CP, W)
  • Laser Physics (3 CP, W)
  • Low Temperature Detectors (4 CP, W)
  • Low Temperature Physics (8 CP, W)
  • Machine Learnin (8 CP, W)
  • Macro economics (8 CP, W)
  • Mandatory Advanced Seminar (6 CP, W)
  • Medical Physics 1 (6 CP, W)
  • Medical Physics 2 (6 CP, W)
  • Microelectronics and electronic laboratory course (7 CP, W)
  • Nanoscale Physics (4 CP, W)
  • New Physics Beyond the Standard Model (2 CP, W)
  • Nonlinear Dynamics (2 CP, W)
  • Observing the Big Bang (3 CP, W)
  • Operating systems and networks (7 CP, W)
  • Optical Properties of Condensed Matter (3 CP, W)
  • Optics in Biophysics (4 CP, W)
  • Organic semiconductors and molecular solids (4 CP, W)
  • Parallel Computer Architectures (8 CP, W)
  • Partial differential equations (8 CP, W)
  • Physics at the LHC (2 CP, W)
  • Physics beyond the Standard Model (4 CP, W)
  • Physics of Aquatic Systems (4 CP, W)
  • Physics of Climate (4 CP, W)
  • Physics of Imaging (4 CP, W)
  • Physics of Particle Detectors (4 CP, W)
  • Physics of Terrestrial Systems (4 CP, W)
  • Practical Course: Numerical Methods (3 CP, W)
  • Practical Course: Statistical Methods (3 CP, W)
  • Practical Environmental Physics (1 CP, W)
  • Precision Experiments in AMO Physics (3 CP, W)
  • Project Practical (4 CP, W)
  • Quantum Dynamics and Control (3 CP, W)
  • Quantum Electrodynamics (3 CP, W)
  • Quantum Fluids (4 CP, W)
  • Quantum Gases (3 CP, W)
  • Quantum Information (3 CP, W)
  • Quantum Magnetism (4 CP, W)
  • Radiation Biophysics (2 CP, W)
  • Radiative Transfer (4 CP, W)
  • Research Seminar (2 CP, W)
  • Research Seminar on Special Topics of Astronomy or Astrophysics (2 CP, W)
  • Research Seminar on special topics of Biophysics (2 CP, W)
  • Research Seminar on special topics of Condensed Matter Physics (2 CP, W)
  • Research Seminar on special topics of Environmental Physics (2 CP, W)
  • Research Seminar on special topics of Medical Physics (2 CP, W)
  • Research Seminar on special topics of Particle Physics (2 CP, W)
  • Research Seminar on special topics of Theoretical Physics (2 CP, W)
  • Scientific computation 1 (8 CP, W)
  • Scientific Programming (4 CP, W)
  • Scientific Visualization (2 CP, W)
  • Semiconductor Physics I (2 CP, W)
  • Semiconductor Physics II (2 CP, W)
  • Special Topics Environmental Physics (2 CP, W)
  • Special Topics in Atomic and Molecular Physics (3 CP, W)
  • Special Topics in Field Theory (4 CP, W)
  • Special training for basis course tutors (6 CP, W)
  • Standard Model of Particle Physics (8 CP, W)
  • Statistical Methods in Particle Physics (4 CP, W)
  • Stellar Astronomy and Astrophysics (6 CP, W)
  • Stochastic Dynamics (2 CP, W)
  • String Theory (4 CP, W)
  • Superconductors (4 CP, W)
  • Supersymmetry and Supergravity (4 CP, W)
  • Surfaces and Nanostructures (6 CP, W)
  • The Physics and Application of Hadron Therapy (2 CP, W)
  • Theoretical Biophysics (6 CP, W)
  • Theoretical Quantum Optics (3 CP, W)
  • Volume Visualization (8 CP, W)

3. Semester

  • Methods and Project Planning (15 CP)
  • Scientific Specialization (15 CP)

4. Semester

  • Master Thesis (30 CP)
 

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