

Publications and proceedings
Review articles
Foundations of quantumgaugefield theories
 A. Maas, Dependence of the propagators on the sampling of Gribov copies inside the first Gribov region of Landau gauge (Ann. of Phys. 387 (2017) 29; arxiv:1705.03812 [heplat]; May 2017)
 A. Maas, Gauge engineering and propagators (Quark Confinement and the Hadron Spectrum XII; arxiv:1610.05639 [heplat]; October 2016)
 A. Maas et al., DysonSchwinger equations and N=4 SYM in Landau gauge (Eur. Phys. J. C 76 113; arxiv:1512.06664 [hepph]; December 2015)
 A. Maas, More on the properties of the first Gribov region in Landau gauge (Phys. Rev. D 93 054504; arxiv:1510.08407 [heplat]; October 2015)
 A. Maas, Propagators and topology (Eur. Phys. J. C75 (2015) 122; arxiv:1410.7954 [heplat]; October 2014; Source code)
 A. Maas et al., Analytic and numerical study of the free energy in gauge theory (Phys. Rev. D 89, 034011 (2014); arxiv:1309.1957 [heplat]; September 2013)
 A. Maas et al., Bounds on free energy in QCD (Quark Confinement and the Hadron Spectrum X; arxiv: 1301.3520 [heplat]; January 2013)
 A. Maas, Local and global gaugefixing (Quark Confinement and the Hadron Spectrum X; arxiv: 1301.2965 [hepth]; January 2013)
 A. Maas, (Non)Aligned gauges and global gauge symmetry breaking (Mod. Phys. Lett. A, Vol. 27, No. 38 (2012) 1250222; arxiv:1205.0890 [hepth]; May 2012)
 A. Maas, On the structure of the residual gauge orbit (II International Workshop on QCD Green"s Functions, Confinement and Phenomenology; PoS(QCDTNTII)028; arxiv: 1111.5457 [hepth]; November 2011)
 A. Maas, Gauges, propagators, and physics (Quark Confinement and the Hadron Spectrum IX; AIP Conf. Proc. 1343 p182184 (2011);arxiv: 1011.5409 [hepph]; November 2011)
 A. Maas, Scalarmattergluon interaction (The many faces of QCD; arxiv: 1102.0901 [heplat]; February 2011)
 A. Maas, On gauge fixing (28th international symposium on lattice field theory; arxiv: 1010.5719 [heplat]; October 2010)
 A. Maas et al., Strongcoupling study of the Gribov ambiguity in lattice Landau gauge (Eur. Phys. J. C68, p183 (2010); arxiv:0912.4203 [heplat]; December 2009)
 A. Maas, Constructing nonperturbative gauges using correlation functions (Phys. Lett. B689, p107 (2010); arxiv:0907.5185 [heplat]; July 2009)
 A. Maas, Green's Functions and Topological Configurations (Quark Confinement and the Hadron Spectrum VIII; arxiv: 0811.2730 [heplat]; November 2008)
 A. Maas, More on Gribov copies and propagators in Landaugauge YangMills theory (Phys. Rev. D79, 014505,2009; arxiv:0808.3047 [heplat]; August 2008)
 A. Maas, Instantons, monopoles, vortices, and the FaddeevPopov operator eigenspectrum (18th International IUPAP conference on fewbody problems in physics; Nucl. Phys. A790 566c569c (2007); hepth/0610011; October 2006)
 A. Maas, On the FaddeevPopov operator eigenspectrum in topological background fields (I Latin American Workshop on High Energy Phenomenology; Braz.J.Phys.37N2B:514519,2007; hepth/0603087; March 2006)
 A. Maas, On the spectrum of the FaddeevPopov operator in topological background fields (Eur.Phys.J. C48, No.1, 179192; hepth/0511307; November 2005)
 A. Fuster et al., BRST Quantization: a short review (Int. J. Geo. Meth. Mod. Phys., Vol. 2, No. 5 (2005) 939963; 10th Saalburg Summer school on modern theoretical methods; hepth/0506098; June 2005)
QCD and the QCD phase diagram
 O. Hajizadeh et al., Gluon and ghost correlation functions of 2color QCD at finite density (35th international symposium on lattice field theory; arxiv:1710.06013 [heplat]; October 2017)
 J. ParisLopez et al., Calculating hadron properties from dynamical hadronization in the Functional Renormalisation Group (Fairness meeting 2017; October 2017)
 O. Hajizadeh et al., Constructing a neutron star in G2QCD (Eur.Phys.J. A53 (2017) 207); arxiv:1702.08724 [astroph.HE]; February 2017)
 A. Maas et al., Influence of broken flavor and C and P symmetry on the quark propagator (Eur.Phys.J. A53 (2017) 22; arxiv:1611.08130 [hepph]; November 2016)
 W. Mian et al., Quark Propagator with electroweak interactions in the DysonSchwinger approach (Quark Confinement and the Hadron Spectrum XII; arxiv:1610.02936 [hepph]; October 2016)
 O. Hajizadeh et al., A G2QCD neutron star (34th international symposium on lattice field theory; arxiv:1609.06979 [astroph.HE]; September 2016)
 L. Fister et al., Exploratory study of the temperature dependence of magnetic vertices in SU(2) Landau gauge YangMills theory (Phys. Rev. D 90, 056008; arxiv:1406.0638 [heplat]; June 2014; Source code)
 A. Maas, Some more details of minimalLandaugauge YangMills propagators (Phys. Rev. D 91, 034502 (2015); arxiv:1402.5050 [heplat]; February 2014)
 B. Wellegehausen et al., Hadron masses and baryonic scales in G2QCD at finite density (Phys.Rev. D89 (2014) 056007; arxiv:1312.5579 [heplat]); December 2013)
 T. Mufti et al., Correlation Functions and Confinement in Scalar QCD (Combined proceeding for the conferences EPSHEP 2013, XXXI International Symposium on Lattice Field Theory, and QCD TNT3; 1310.8166 [heplat]; October 2013)
 L. von Smekal et al., G2QCD: Spectroscopy and the phase diagram at zero temperature and finite density (31st international symposium on lattice field theory; 1310.7745 [heplat]; October 2013)
 E.M. Ilgenfritz et al., Topological aspects of G2 YangMills theory (Phys. Rev. D 86, 114508 (2012); arxiv:1210.5963 [heplat]; October 2012)
 A. Maas et al., G2 gauge theories (30th international symposium on lattice field theory; PoS(Lattice 2012)080; arxiv: 1210.7950 [heplat]; October 2012)
 M. Huber et al., Two and threepoint functions in twodimensional Landaugauge YangMills theory: Continuum results (JHEP 11 (2012) 035; arxiv:1207.0222 [hepth]; July 2012)
 A. Maas et al., The phase diagram of a gauge theory with fermionic baryons (Phys. Rev. D 86, 111901(R) (2012); arxiv:1203.5653 [heplat]; March 2012)
 M. Dirnberger et al., No coincidence of center percolation and deconfinement in SU(4) lattice gauge theory (Phys. Lett. B 716, 465 (2012); arxiv:1201.1360 [heplat]; January 2012)
 R. Alkofer et al., On the Infrared Behaviour of Landau Gauge YangMills Theory with Differently Charged Scalar Fields (Quark Confinement and the Hadron Spectrum IX; AIP Conf. Proc. 1343 p179181 (2011); arxiv: 1011.5831 [hepph]; November 2011)
 A. Maas et al., The gluon propagator close to criticality (Phys. Rev. D 95, 034037 (2012); arxiv: 1110.6340 [heplat]; October 2011)
 A. Maas et al., YangMills Theory in lambdaGauges (Phys. Rev. D 84, 114501 (2011); arxiv: 1108.2621 [heplat]; August 2011)
 A. Maas, On the gaugealgebra dependence of Landaugauge YangMills propagators (JHEP 02 (2011) 076; arxiv: 1012.4284 [heplat]; December 2010)
 M. Blank et al., Aspects of gauge(in)dependence in BetheSalpeterequation studies of mesons (Phys. Rev. D 83, 034020 (2011); arxiv: 1007.3901 [hepph]; July 2010)
 C. S. Fischer et al., Chiral and deconfinement transition from correlation functions: SU(2) vs. SU(3) (Eur. Phys. J. C68, p165 (2010); arxiv: 1003.1960 [heplat]; March 2010)
 A. Maas, Describing gluons at zero and finite temperature (International Conference on Quarks and Nuclear Physics V; Chinese Journal of Physics 34, p1328 (2010); arxiv: 0911.0348 [heplat]; November 2009)
 E. Bilgici et al., Fermionic boundary conditions and the finite temperature transition of QCD (Few Body Systems 47 (2010) p125135; arxiv:0906.3957 [heplat]; June 2009)
 R. Alkofer et al., Truncating firstorder DysonSchwinger equations in CoulombGauge YangMills theory (Few Body Systems 47 (2010) p7390; arxiv:0905.4594 [hepph]; May 2009)
 C. S. Fischer et al., Aspects of confinement from QCD correlation functions (Quark Confinement and the Hadron Spectrum VIII; arxiv: 0812.2745 [hepph]; December 2008)
 J. Danzer et al., Chiral symmetry and spectral properties of the Dirac operator in G2 YangMills Theory (JHEP 01 (2009) 024; arxiv:0810.3973 [heplat]; October 2008)
 C. S. Fischer et al., On the infrared behavior of Landau gauge YangMills theory (Annals of Physics 324 (2009), pp. 24082437; arxiv:0810.1987 [hepph]; October 2008)
 T. Mendes et al., Infrared Propagators in MAG and Feynman gauge on the lattice (XIII International Conference on Selected Problems of Modern Theoretical Physics; arxiv: 0809.3741 [heplat]; September 2008)
 A. Cucchieri et al., Linear covariant gauges on the lattice (Comput.Phys.Commun.180:215225,2009; arxiv:0806.3124 [heplat]; June 2008)
 A. Cucchieri et al., Threepoint vertices in Landaugauge YangMills theory (Phys. Rev. D 77, 094510 (2008); arxiv:0803.1798 [heplat]; March 2008)
 A. Maas et al., A first look at Landaugauge propagators in G2 YangMills theory (JHEP 02 (2008) 070; arxiv:0711.1451 [heplat]; November 2007)
 C. S. Fischer et al., Large volume behavior of YangMills propagators (XXV International Smyposium on Lattice Field theory; arxiv: 0709.3205 [heplat]; September 2007)
 A. Maas, Two and threepoint Green's functions in twodimensional Landaugauge YangMills theory (Phys. Rev. D 75, 116004 (2007); arxiv:0704.0722 [heplat]; April 2007)
 A. Cucchieri et al., Infrared properties of propagators in Landaugauge pure YangMills theory at finite temperature (Phys. Rev. D 75, 076003 (2007); heplat/0702022; February 2007)
 A. Cucchieri et al., Infraredsuppressed gluon propagator in 4d YangMills theory in a Landaulike gauge (Mod.Phys.Lett.A22:24292438,2007; heplat/0701011; January 2007)
 C. S. Fischer et al., Large volume behaviour of YangMills propagators (Annals Phys.322:29162944,2007; hepph/0701050; January 2007)
 A. Maas et al., Propagators in YangMills theory for different gauges (Quark Confinement and the Hadron Spectrum VII; heplat/0610123; October 2006)
 A. Maas et al., On the infrared behavior of Green's functions in YangMills theory (Infrared QCD in Rio; Braz. J. Phys. 37 No. 1B (2007), 219; heplat/0610006; October 2006)
 A. Cucchieri et al., Exploratory study of threepoint Green's functions in Landaugauge YangMills theory (Phys. Rev. D 74, 014503 (2006); heplat/0605011; May 2006)
 A. Maas, Solving a Set of Truncated DysonSchwinger equations with a globally converging methods (Comput. Phys. Commun., 175, 167179 (2006); hepph/0504110; April 2005)
 A. Maas et al., The HighTemperature Phase of LandauGauge YangMills theory (Eur.Phys.J. C42, No.1, 93107 (2005); hepph/0504019; April 2005)
 W. Schleifenbaum et al., Infrared behaviour of the ghostgluon vertex in Landau gauge YangMills theory (Phys. Rev. D72, 014017 (2005); hepph/0411052; November 2004)
 A. Maas et al., FiniteTemperature YangMills Theory in Landau Gauge (Quark Confinement and the Hadron Sepctrum VI; AIP Conf. Proc. 756 (2005) 425; hepph/0411289; November 2004)
 W. Schleifenbaum et al., The GhostGluon Vertex in Landau Gauge YangMills Theory (42nd International School on Subnuclear Physics; hepph/0411060; November 2004)
 B. Grüter et al., Temperature Dependence of Gluon and Ghost Propagators in LandauGauge YangMills Theory below the Phase Transition (Eur.Phys.J. C42, No. 1, 109118 (2005); hepph/0408282; August 2004)
 A. Maas et al., HighTemperature Limit of LandauGauge YangMills Theory (Eur.Phys.J. C37, No.3, 335357 (2004); hepph/0408074; August 2004)
 A. Maas et al., Residual Confinement in HighTemperature YangMills Theory (Strong and Electroweak Matter 2004; World Scientific, ISBN 9812561358, April 2005; hepph/0408299; August 2004)
 B. Grüter et al., QCD Propagators at nonvanishing temperatures (25th International School on Nuclear Physics; Prog.Part.Nucl.Phys. 53 (2004) 343345; hepph/0401164; January 2004)
 A. Maas et al., Towards the Finite Temperature Gluon Propagator in Landau Gauge YangMills Theory (40th International School on Subnuclear Physics: From Quarks and Gluons to Quantum Gravity, Subnuclear Series No. 40, World Scientific, ISBN 9812386130, Dec. 2003; hepph/0210178; October 2002)
Higgs physics
 A. Maas et al., Implications of strict gauge invariance for particle spectra and precision observables (EPS Conference on High Energy Physics 2017; arxiv:1710.01182 [hepph]; October 2017)
 L. Egger et al., Pair production processes and flavor in gaugeinvariant perturbation theory (Mod. Phys. Lett. A 32, 1750212 (2017); arxiv:1701.02881 [hepph]; January 2017)
 A. Maas, The quenched SU(2) fundamental scalar propagator in minimal Landau gauge (Eur. Phys. J. C76 (2016) 366; arxiv:1603.07525 [heplat]; March 2016)
 A. Maas et al., A spectroscopical analysis of the phase diagram of YangMillsHiggs theory (Phys. Rev. D 91, 113011; arxiv:1412.6440 [heplat]; December 2014)
 A. Maas et al., On the phase diagram and the singlet scalar channel in YangMillsHiggs theory (32nd international symposium on lattice field theory; arxiv:1410.7935 [heplat]; October 2014)
 A. Maas et al., Two and threepoint functions in Landau gauge YangMillsHiggs theory (JHEP 1404 (2014) 006; arxiv:1312.4873 [heplat]; December 2013)
 A. Maas et al., Exploring Higgs Sector Spectroscopy (31st international symposium on lattice field theory; 1310.7832 [heplat]; October 2013)
 A. Maas et al., Nonperturbative aspects in a weakly interacting Higgs sector (36th International Conference on HighEnergy Physics; arxiv: 1211.5301 [heplat]; November 2012)
 A. Maas, Boundstate/elementaryparticle duality in the Higgs sector and the case for an excited 'Higgs' within the standard model (Mod. Phys. Lett. A, Vol. 28, No. 28 (2013) 1350103; arxiv:1205.6625 [heplat]; May 2012)
 A. Maas, Employing the perturbative definition of the Higgs mass in a nonperturbative calculation (29th international symposium on lattice field theory; arxiv: 1110.0908 [heplat]; October 2011)
 V. Macher et al., A study of the influence of the gauge group on the DysonSchwinger equations for scalarYangMills systems (International Journal of Modern Physics A Vol. 27, No. 18 (2012) 1250098; arxiv: 1106.5381 [hepph]; June 2011)
 A. Maas, Accessing the properties of an elementary Higgs beyond perturbation theory (35th international conference on highenergy physics; November 2010)
 A. Maas, Accessing directly the properties of fundamental scalars in the confinement and Higgs phase (Eur. Phys. J. C71, p1548 (2011); arxiv: 1007.0729 [heplat]; July 2010)
Physics beyond the standard model
 A. Maas et al., The spectrum of an SU(3) gauge theory with a fundamental Higgs field (arxiv:1804.04453 [heplat]; April 2018)
 P. Törek et al., A study of how the particle spectra of SU(N) gauge theories with a fundamental Higgs emerge (35th international symposium on lattice field theory; arxiv:1710.01941 [heplat]; October 2017)
 A. Maas et al., On the observable spectrum of theories with a BroutEnglertHiggs effect (arxiv:1709.07477 [hepph]; September 2017)
 P. Törek et al., Testing gaugeinvariant perturbation theory (34th international symposium on lattice field theory; arxiv:1610.04188 [heplat]; October 2016)
 A. Maas et al., Predicting the singlet vector channel in a partially Higgsed gauge theory (Phys. Rev. D 95, 014501; arxiv:1607.05860 [heplat]; July 2016)
 A. Maas et al., Gauge invariance and the physical spectrum in the twoHiggsdoublet model (Phys. Rev. D 93, 056005; arxiv:1601.02006 [hepph]; January 2016)
 P. Törek et al., Towards the spectrum of a GUT from gauge invariance (27th International Symposium on Lepton Photon Interactions at High Energies; arxiv:1509.06497 [hepph]; September 2015)
 A. Maas, Field theory as a tool to constrain new physics models (Mod. Phys. Lett. A, 30, 1550135 (2015); arxiv:1502.02421 [hepph]; February 2015)
 A. Maas, Observables in Higgsed Theories (37th International Conference on HighEnergy Physics; arxiv:1410.2740 [heplat]; October 2014)
 D. August et al., The anomalous mass dimension from the techniquark propagator in Minimal Walking Technicolor (31st international symposium on lattice field theory; November 2013)
 D. August et al., On the Landaugauge adjoint quark propagator (JHEP 01 (2013) 001; arxiv:1304.4423 [heplat]; April 2013)
 A. Maas, On the gauge boson's properties in a candidate technicolor theory (JHEP 05 (2011) 077; arxiv: 1102.5023 [heplat]; February 2011)
 E. Bilgici et al., Adjoint quarks and fermionic boundary conditions (JHEP 11 (2009) 035; arxiv:0904.3450 [heplat]; April 2009)


