Module list (all years)

All Training modules taught by MPAGS to date.

Modulesort iconAcademic yearStart date
PP4: Deep Inelastic Scattering2014-201513/01/2015 - 11:00
PP5: Group Theory (for Particle Physics)2014-201503/11/2014 - 12:00
PP6: Particle Physics Techniques2014-201501/10/2014 - 11:00
PP7: Higgs Boson physics2014-201505/11/2014 - 12:00
QFT: Quantum Field Theory2014-201521/10/2014 - 12:00
QM5: Quantum Field Theory and Luttinger Liquids2014-201506/10/2014 - 13:00
TRI: Trigger for Particle Physics2014-201527/01/2015 - 12:00
AS0: Astronomy Background Reading2013-201409/10/2013 - 11:00
AS1: An introduction to scientific computing with Python 2013-201410/10/2013 - 15:00
AS2: Astrophysical Techniques2013-201415/11/2013 - 11:00
AS3: Fourier techniques and statistics2013-201410/01/2014 - 11:00
AS5: Stars2013-201411/02/2014 - 09:00
AS6: Dark matter2013-201413/02/2014 - 15:00
AT2: Quantum Optics2013-201404/03/2014 - 13:00
AT3: Atom interferometry and precision measurements2013-201414/11/2013 - 09:30
CM3: Bosonic physics2013-201413/03/2014 - 16:00
CM6: Modelling High Temperature Superconductors2013-201410/02/2014 - 11:00
COS: Cosmology2013-201412/01/2015 - 11:00
EX0c: Probes of Condensed Matter (part 3)2013-201407/10/2013 - 13:00
EX0d: Probes of Condensed Matter (part 4)2013-201411/11/2013 - 13:00
EX3: Crystallography2013-201413/11/2013 - 13:00
EX6: Epitaxial growth of the group-IV semiconductor materials2013-201405/11/2013 - 09:00
EX8: Introduction to solid-state devices2013-201406/01/2014 - 09:00
MM1: Time Series Analysis2013-201408/10/2013 - 15:00
MM3: Statistics for (particle) physicists2013-201411/02/2014 - 12:00
MR1: Foundations of Magnetic Resonance2013-201409/10/2013 - 09:00
MR2: Magnetic Resonance Hardware2013-201413/11/2013 - 09:00
MR3: Advanced Topics in Magnetic Resonance2013-201408/01/2014 - 09:00
MR5: Applications of Magnetic Resonance2013-201413/02/2014 - 09:00
NM1: Monte Carlo and molecular dynamics2013-201407/01/2014 - 15:00
NS1: Introduction to Surfaces and Thin Films2013-201412/11/2013 - 13:00
PP1: Introduction to Particle Physics2013-201408/10/2013 - 12:00
PP2: Relativistic Quantum Mechanics2013-201408/10/2013 - 11:00
PP3: QED and the Standard Model2013-201419/11/2013 - 12:00
PP5: Group Theory (for Particle Physics)2013-201412/11/2013 - 11:00
PP7: Higgs Boson physics2013-201407/01/2014 - 12:00
QM2: Introduction to Field Theory for Condensed Matter2013-201411/10/2013 - 15:00
QM4: Quantum Hall and Many Body Effects2013-201414/11/2013 - 15:00
AS0: Astronomy Background Reading2012-201303/10/2012 - 11:00
AS1: An introduction to scientific computing with Python 2012-201323/10/2012 - 13:00
AS3: Fourier techniques and statistics2012-201311/01/2013 - 11:00
AS4: Gravitational wave astronomy2012-201308/01/2013 - 13:00
AS5: Stars2012-201327/03/2013 - 13:00
AS6: Dark matter2012-201315/02/2013 - 11:00
AS7: Star formation2012-201314/02/2013 - 13:00
AT1: Bose-Einstein Condensation in Ultra Cold Gases2012-201308/10/2012 - 15:00
AT3: Atom interferometry and precision measurements2012-201314/11/2012 - 14:00
AT5: Coherent phenomena in atomic physics2012-201308/01/2013 - 15:00
AT6: Landmark experiments in quantum optics2012-201311/02/2013 - 13:00
CM4: Strongly correlated 1D systems: Luttinger liquids2012-201307/01/2013 - 15:00