We offer theses in all areas of our research, and give some examples below PhD theses: PhD positions are announced on the Inspire Job Database Completed theses: Vincenzo Afferrante, Gauge invariant spectra of theories with BEH effect Ouraman Hajizadeh, QCD-like theories on the lattice and their applications Walid Mian, Beta-decay of hadrons in a first principle approach Tajdar Mufti, Non-perturbative aspects of Yang-Mills-Higgs theory Bernd Riederer, On Gauge-Scalar-Theories: The many aspects of the Brout-Englert-Higgs effect Pascal Törek, The physical spectrum of theories with a Brout-Englert-Higgs effect Fabian Zieler, Lattice studies of Sp(4) as a candidate Dark Matter theory Master theses are available in the following areas: Precision measurements at the LHC and linear colliders (Numerical and analytic projects) Quantum gravity and supergravity (Analytical and numerical projects) Phenomenology and model-building of grand-unified theories (Numerical and analytical projects) Strongly-interacting dark matter (Numerical projects) Structure of quantum gauge theories (Numerical and analytical projects) Classical electrodynamics and category theory (Analytical project) Completed theses: Daniel August, Adjoint quarks in technicolor and QCD Larissa Egger, Possible substructure of an electron Simon Fernbach, Higgs-PDF study in proton-proton collisions Veronika Macher, Adjoint and fundamental scalar fields coupled to Landau-gauge Yang-Mills theory Markus Markl, Black Holes as Quantum Phenomena Michael Müller, Gravitational bound states in quantum gravity Dominik Nitz, Masses of custodial singlet vector particles in Yang-Mills-Higgs theory Eveline Ochensberger, Towards dark matter through the Higgs portal Sebastian Raubitzek, The size of the W-boson Franziska Reiner, The non-violation of the Bloch-Nordsieck theorem for the electroweak sector of the Standard Model Bernd Riederer, Scattering phases in the H->WW* channel Philipp Schreiner, The manifestly gauge-invariant spectrum of the Minimal Supersymmetric Standard Model Wolfgang Schleifenbaum, The ghost-gluon vertex in Landau gauge Yang-Mills theory in four and three dimensions Fabian Veider, NLO corrections for e− e+ → µ− µ+ in a SU(2)+BEH theory via augmented perturbation theory Stefan Zitz, Functional approach to N=4 super-Yang-Mills theory Bachelor theses are available on the following topics: Precision measurements at the LHC and future colliders (Numerical projects) Structures in gauge theories and gravity (Analytical and numerical projects) Classical mechanics and category theory (Analytical projects) Completed theses: Pedram Bazmeh, Search for holomorphic Gribov-copies outside of the first Gribov region Simon Dampfhofer, Approaches to the shape of the Higgs-PDF using proton-proton collisions Alexander Egger-Feiel, Eigenspectrum of the Faddeev-Popov operator in SU(2) Tamara Friedl, Construction of a model action for a zero-dimensional model of the nonanalytic behaviour of the gluon propagator in Landau gauge at zero source strength Patrick Jenny, Improving the determination of energy levels in lattice simulations Dorian Jost, A supersymmetric approach to the Gribov problem within an instanton field configuration David Kneidinger, An algorithmic approach to calculate geodesics in quantum gravity Paul Kothgasser, Proton Proton Collisions at the LHC and Future Colliders Michael Mandl, Search for Gribov copies using a modified instanton configuration Michael Müller, Optimization of SU(2) Landau Gauge-Fixing Algorithms Nicole Oberth, Investigating the Gribov Problem through the Faddeev-Popov Operator Eigenspectrum in SU(2) Christina Perner, Metric reconstruction with causal dynamical triangulation Maximilian Pfandner, Calculation of eigenvalues of the Faddev-Popov-operator to a certain vector potential configuration – a variational approach Felix Pressler, Lattice Spectroscopy of Strongly Interacting Dark Matter Candidates Kevin Radl, Dark Matter in Neutron Stars Daniel Reiche, Influence of Higgs bound states on W/Z scattering at the LHC (in German) Lukas Reicht, Using machine learning for BSM particle identification Franziska Reiner, The form of the Higgs-PDF in the proton Andreas Schindlegger, Search for Gribov Copies Outside the First Griobov Region Using an Oriented Center Vortex Field Configuration Fabian Veider, Dynamics of the Higgs in the proton Raphael Wagner, Using machine learning for BSM particle identification Alicia Wongel, Investigation of a dark matter particle in the Higgs portal model Fabian Zierler, Search for Gribov copies outside the first Gribov region in SU(2) Yang-Mills theory | 