Publications

Publications and proceedings

Sorted by research area

Review articles

A. Maas, The Fröhlich-Morchio-Strocchi mechanism: A underestimated legacy (Springer Nature, 2305.01960 [hep-th]; May 2023)
P. Berghofer et al., Gauge Symmetries, Symmetry Breaking, and Gauge-Invariant Approaches (Cambridge Elements in Foundations of Contemporary Physics; 2110.00616 [physics.hist-ph]; October 2021)
A. Maas, Brout-Englert-Higgs physics: From foundations to phenomenology (Prog. Part. Nucl. Phys. 106 (2019) 132; 1712.04721 [hep-ph]; December 2017)
A. Maas, Gauge bosons at zero and finite temperature (Phys. Rep. 524 (2013) 203; 1106.3942 [hep-ph]; June 2011)
A. Maas, Gluons at finite temperature in Landau gauge Yang-Mills theory (Mod. Phys. Lett. A, Vol. 20, No. 24 (2005) pp. 1797-1811; hep-ph/0506066; June 2005)

Foundations of quantum-gauge-field theories

A. Maas, Constraining the gauge-fixed Lagrangian in minimal Landau gauge (SciPost Phys. 8, 071 (2020); arxiv:1907.10435 [hep-lat]; July 2019)
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 [hep-lat]; May 2017)
A. Maas, Gauge engineering and propagators (Quark Confinement and the Hadron Spectrum XII; arxiv:1610.05639 [hep-lat]; October 2016)
A. Maas et al., Dyson-Schwinger equations and N=4 SYM in Landau gauge (Eur. Phys. J. C 76 113; arxiv:1512.06664 [hep-ph]; December 2015)
A. Maas, More on the properties of the first Gribov region in Landau gauge (Phys. Rev. D 93 054504; arxiv:1510.08407 [hep-lat]; October 2015)
A. Maas, Propagators and topology (Eur. Phys. J. C75 (2015) 122; arxiv:1410.7954 [hep-lat]; 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 [hep-lat]; September 2013)
A. Maas et al., Bounds on free energy in QCD (Quark Confinement and the Hadron Spectrum X; arxiv: 1301.3520 [hep-lat]; January 2013)
A. Maas, Local and global gauge-fixing (Quark Confinement and the Hadron Spectrum X; arxiv: 1301.2965 [hep-th]; 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 [hep-th]; May 2012)
A. Maas, On the structure of the residual gauge orbit (II International Workshop on QCD Green"s Functions, Confinement and Phenomenology; PoS(QCD-TNT-II)028; arxiv: 1111.5457 [hep-th]; November 2011)
A. Maas, Gauges, propagators, and physics (Quark Confinement and the Hadron Spectrum IX; AIP Conf. Proc. 1343 p182-184 (2011);arxiv: 1011.5409 [hep-ph]; November 2011)
A. Maas, Scalar-matter-gluon interaction (The many faces of QCD; arxiv: 1102.0901 [hep-lat]; February 2011)
A. Maas, On gauge fixing (28th international symposium on lattice field theory; arxiv: 1010.5719 [hep-lat]; October 2010)
A. Maas et al., Strong-coupling study of the Gribov ambiguity in lattice Landau gauge (Eur. Phys. J. C68, p183 (2010); arxiv:0912.4203 [hep-lat]; December 2009)
A. Maas, Constructing non-perturbative gauges using correlation functions (Phys. Lett. B689, p107 (2010); arxiv:0907.5185 [hep-lat]; July 2009)
A. Maas, Green's Functions and Topological Configurations (Quark Confinement and the Hadron Spectrum VIII; arxiv: 0811.2730 [hep-lat]; November 2008)
A. Maas, More on Gribov copies and propagators in Landau-gauge Yang-Mills theory (Phys. Rev. D79, 014505,2009; arxiv:0808.3047 [hep-lat]; August 2008)
A. Maas, Instantons, monopoles, vortices, and the Faddeev-Popov operator eigenspectrum (18th International IUPAP conference on few-body problems in physics; Nucl. Phys. A790 566c-569c (2007); hep-th/0610011; October 2006)
A. Maas, On the Faddeev-Popov operator eigenspectrum in topological background fields (I Latin American Workshop on High Energy Phenomenology; Braz.J.Phys.37N2B:514-519,2007; hep-th/0603087; March 2006)
A. Maas, On the spectrum of the Faddeev-Popov operator in topological background fields (Eur.Phys.J. C48, No.1, 179-192; hep-th/0511307; November 2005)
A. Fuster et al., BRST Quantization: a short review (Int. J. Geo. Meth. Mod. Phys., Vol. 2, No. 5 (2005) 939-963; 10th Saalburg Summer school on modern theoretical methods; hep-th/0506098; June 2005)

QCD and the QCD phase diagram

A. Maas et al., More on the three-gluon vertex in SU(2) Yang-Mills theory in three and four dimensions (SciPost Phys. Core 5, 019 (2022), arXiv:2006.08248 [hep-lat], June 2020)
O. Hajizadeh et al., Exploring the Tan contact term in Yang-Mills theory (Phys. Rev. D 103, 034023 (2021), arXiv:1909.12727 [hep-ph], September 2019)
T. Boz et al., Finite-density gauge correlation functions in QC2D (Phys. Rev. D 99, 074514 (2019), arXiv:1812.08517 [hep-lat]; December 2018)
R. Alkofer et al., Bound state properties from the Functional Renormalisation Group (Phys. Rev. D 99, 054029 (2019); arXiv: 1810.07955 [hep-ph]; October 2018)
W. Mian et al., Formulating electroweak pion decays in functional methods (17th international conference on hadron physics; December 2017)
O. Hajizadeh et al., Gluon and ghost correlation functions of 2-color QCD at finite density (35th international symposium on lattice field theory; arxiv:1710.06013 [hep-lat]; October 2017)
J. Paris-Lopez 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 G2-QCD (Eur.Phys.J. A53 (2017) 207); arxiv:1702.08724 [astro-ph.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 [hep-ph]; November 2016)
W. Mian et al., Quark Propagator with electroweak interactions in the Dyson-Schwinger approach (Quark Confinement and the Hadron Spectrum XII; arxiv:1610.02936 [hep-ph]; October 2016)
O. Hajizadeh et al., A G2-QCD neutron star (34th international symposium on lattice field theory; arxiv:1609.06979 [astro-ph.HE]; September 2016)
L. Fister et al., Exploratory study of the temperature dependence of magnetic vertices in SU(2) Landau gauge Yang-Mills theory (Phys. Rev. D 90, 056008; arxiv:1406.0638 [hep-lat]; June 2014; Source code)
A. Maas, Some more details of minimal-Landau-gauge Yang-Mills propagators (Phys. Rev. D 91, 034502 (2015); arxiv:1402.5050 [hep-lat]; February 2014)
B. Wellegehausen et al., Hadron masses and baryonic scales in G2-QCD at finite density (Phys.Rev. D89 (2014) 056007; arxiv:1312.5579 [hep-lat]); 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 [hep-lat]; October 2013)
L. von Smekal et al., G2-QCD: Spectroscopy and the phase diagram at zero temperature and finite density (31st international symposium on lattice field theory; 1310.7745 [hep-lat]; October 2013)
E.-M. Ilgenfritz et al., Topological aspects of G2 Yang-Mills theory (Phys. Rev. D 86, 114508 (2012); arxiv:1210.5963 [hep-lat]; October 2012)
A. Maas et al., G2 gauge theories (30th international symposium on lattice field theory; PoS(Lattice 2012)080; arxiv: 1210.7950 [hep-lat]; October 2012)
M. Huber et al., Two- and three-point functions in two-dimensional Landau-gauge Yang-Mills theory: Continuum results (JHEP 11 (2012) 035; arxiv:1207.0222 [hep-th]; 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 [hep-lat]; 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 [hep-lat]; January 2012)
R. Alkofer et al., On the Infrared Behaviour of Landau Gauge Yang-Mills Theory with Differently Charged Scalar Fields (Quark Confinement and the Hadron Spectrum IX; AIP Conf. Proc. 1343 p179-181 (2011); arxiv: 1011.5831 [hep-ph]; November 2011)
A. Maas et al., The gluon propagator close to criticality (Phys. Rev. D 95, 034037 (2012); arxiv: 1110.6340 [hep-lat]; October 2011)
A. Maas et al., Yang-Mills Theory in lambda-Gauges (Phys. Rev. D 84, 114501 (2011); arxiv: 1108.2621 [hep-lat]; August 2011)
A. Maas, On the gauge-algebra dependence of Landau-gauge Yang-Mills propagators (JHEP 02 (2011) 076; arxiv: 1012.4284 [hep-lat]; December 2010)
M. Blank et al., Aspects of gauge-(in)dependence in Bethe-Salpeter-equation studies of mesons (Phys. Rev. D 83, 034020 (2011); arxiv: 1007.3901 [hep-ph]; 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 [hep-lat]; 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 [hep-lat]; November 2009)
E. Bilgici et al., Fermionic boundary conditions and the finite temperature transition of QCD (Few Body Systems 47 (2010) p125-135; arxiv:0906.3957 [hep-lat]; June 2009)
R. Alkofer et al., Truncating first-order Dyson-Schwinger equations in Coulomb-Gauge Yang-Mills theory (Few Body Systems 47 (2010) p73-90; arxiv:0905.4594 [hep-ph]; May 2009)
C. S. Fischer et al., Aspects of confinement from QCD correlation functions (Quark Confinement and the Hadron Spectrum VIII; arxiv: 0812.2745 [hep-ph]; December 2008)
J. Danzer et al., Chiral symmetry and spectral properties of the Dirac operator in G2 Yang-Mills Theory (JHEP 01 (2009) 024; arxiv:0810.3973 [hep-lat]; October 2008)
C. S. Fischer et al., On the infrared behavior of Landau gauge Yang-Mills theory (Annals of Physics 324 (2009), pp. 2408-2437; arxiv:0810.1987 [hep-ph]; 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 [hep-lat]; September 2008)
A. Cucchieri et al., Linear covariant gauges on the lattice (Comput.Phys.Commun.180:215-225,2009; arxiv:0806.3124 [hep-lat]; June 2008)
A. Cucchieri et al., Three-point vertices in Landau-gauge Yang-Mills theory (Phys. Rev. D 77, 094510 (2008); arxiv:0803.1798 [hep-lat]; March 2008)
A. Maas et al., A first look at Landau-gauge propagators in G2 Yang-Mills theory (JHEP 02 (2008) 070; arxiv:0711.1451 [hep-lat]; November 2007)
C. S. Fischer et al., Large volume behavior of Yang-Mills propagators (XXV International Smyposium on Lattice Field theory; arxiv: 0709.3205 [hep-lat]; September 2007)
A. Maas, Two- and three-point Green's functions in two-dimensional Landau-gauge Yang-Mills theory (Phys. Rev. D 75, 116004 (2007); arxiv:0704.0722 [hep-lat]; April 2007)
A. Cucchieri et al., Infrared properties of propagators in Landau-gauge pure Yang-Mills theory at finite temperature (Phys. Rev. D 75, 076003 (2007); hep-lat/0702022; February 2007)
A. Cucchieri et al., Infrared-suppressed gluon propagator in 4d Yang-Mills theory in a Landau-like gauge (Mod.Phys.Lett.A22:2429-2438,2007; hep-lat/0701011; January 2007)
C. S. Fischer et al., Large volume behaviour of Yang-Mills propagators (Annals Phys.322:2916-2944,2007; hep-ph/0701050; January 2007)
A. Maas et al., Propagators in Yang-Mills theory for different gauges (Quark Confinement and the Hadron Spectrum VII; hep-lat/0610123; October 2006)
A. Maas et al., On the infrared behavior of Green's functions in Yang-Mills theory (Infrared QCD in Rio; Braz. J. Phys. 37 No. 1B (2007), 219; hep-lat/0610006; October 2006)
A. Cucchieri et al., Exploratory study of three-point Green's functions in Landau-gauge Yang-Mills theory (Phys. Rev. D 74, 014503 (2006); hep-lat/0605011; May 2006)
A. Maas, Solving a Set of Truncated Dyson-Schwinger equations with a globally converging methods (Comput. Phys. Commun., 175, 167-179 (2006); hep-ph/0504110; April 2005)
A. Maas et al., The High-Temperature Phase of Landau-Gauge Yang-Mills theory (Eur.Phys.J. C42, No.1, 93-107 (2005); hep-ph/0504019; April 2005)
W. Schleifenbaum et al., Infrared behaviour of the ghost-gluon vertex in Landau gauge Yang-Mills theory (Phys. Rev. D72, 014017 (2005); hep-ph/0411052; November 2004)
A. Maas et al., Finite-Temperature Yang-Mills Theory in Landau Gauge (Quark Confinement and the Hadron Sepctrum VI; AIP Conf. Proc. 756 (2005) 425; hep-ph/0411289; November 2004)
W. Schleifenbaum et al., The Ghost-Gluon Vertex in Landau Gauge Yang-Mills Theory (42nd International School on Subnuclear Physics; hep-ph/0411060; November 2004)
B. Grüter et al., Temperature Dependence of Gluon and Ghost Propagators in Landau-Gauge Yang-Mills Theory below the Phase Transition (Eur.Phys.J. C42, No. 1, 109-118 (2005); hep-ph/0408282; August 2004)
A. Maas et al., High-Temperature Limit of Landau-Gauge Yang-Mills Theory (Eur.Phys.J. C37, No.3, 335-357 (2004); hep-ph/0408074; August 2004)
A. Maas et al., Residual Confinement in High-Temperature Yang-Mills Theory (Strong and Electroweak Matter 2004; World Scientific, ISBN 981-256-135-8, April 2005; hep-ph/0408299; August 2004)
B. Grüter et al., QCD Propagators at non-vanishing temperatures (25th International School on Nuclear Physics; Prog.Part.Nucl.Phys. 53 (2004) 343-345; hep-ph/0401164; January 2004)
A. Maas et al., Towards the Finite Temperature Gluon Propagator in Landau Gauge Yang-Mills Theory (40th International School on Subnuclear Physics: From Quarks and Gluons to Quantum Gravity, Subnuclear Series No. 40, World Scientific, ISBN 981-238-613-0, Dec. 2003; hep-ph/0210178; October 2002)

Higgs and electroweak physics

A. Maas, Experimental signatures of subtleties in the Brout-Englert-Higgs mechanism (57th Rencontres de Moriond, arxiv: 2305.07395 [hep-ph]; May 2023)
A. Maas et al., Restoring the Bloch-Nordsieck theorem in the electroweak sector of the standard model (Phys. Rev. D 108, 013001 (2023); arxiv: 2212.08470 [hep-ph]; December 2022)
B. Riederer et al., Investigating vector boson scattering: A fully gauge-invariant study (39th international symposium on lattice field theory, arxiv: 2210.17211 [hep-lat]; October 2022)
P. Jenny et al., Vector boson scattering from the lattice (Phys. Rev. D 105, 114513 (2022); arxiv: 2204.02756 [hep-lat]; April 2022)
F. Reiner et al., Bloch-Nordsieck restoration in llbar -> qqbar (EPS Conference on High Energy Physics 2021; arxiv: 2110.07312 [hep-ph]; October 2021)
V. Afferrante et al., Testing the mechanism of lepton compositness (SciPost Phys. 10, 062 (2021); arxiv:2011.02301 [hep-lat]; November 2020)
A. Maas et al., Gauge-invariant description of the Higgs resonance and its phenomenological implications (Phys. Rev. D 102, 113001 (2020); arxiv:2009.06671 [hep-ph]; September 2020)
S. Fernbach et al., Constraining the Higgs valence contribution in the proton (Phys. Rev. D 101, 114018 (2020) ; arxiv:2002.01688 [hep-ph]; February 2020)
A. Maas et al., Probing standard-model Higgs substructures using tops and weak gauge bosons (EPS Conference on High Energy Physics 2019; arxiv:1910.14316 [hep-ph]; October 2019)
A. Maas et al., Exploratory study of the off-shell properties of the weak vector bosons (Phys. Rev. D 99, 074509 (2019); arxiv:1811.03395 [hep-lat]; November 2018)
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 [hep-ph]; October 2017)
L. Egger et al., Pair production processes and flavor in gauge-invariant perturbation theory (Mod. Phys. Lett. A 32, 1750212 (2017); arxiv:1701.02881 [hep-ph]; January 2017)
A. Maas, The quenched SU(2) fundamental scalar propagator in minimal Landau gauge (Eur. Phys. J. C76 (2016) 366; arxiv:1603.07525 [hep-lat]; March 2016; Code)
A. Maas et al., A spectroscopical analysis of the phase diagram of Yang-Mills-Higgs theory (Phys. Rev. D 91, 113011; arxiv:1412.6440 [hep-lat]; December 2014)
A. Maas et al., On the phase diagram and the singlet scalar channel in Yang-Mills-Higgs theory (32nd international symposium on lattice field theory; arxiv:1410.7935 [hep-lat]; October 2014)
A. Maas et al., Two- and three-point functions in Landau gauge Yang-Mills-Higgs theory (JHEP 1404 (2014) 006; arxiv:1312.4873 [hep-lat]; December 2013)
A. Maas et al., Exploring Higgs Sector Spectroscopy (31st international symposium on lattice field theory; 1310.7832 [hep-lat]; October 2013)
A. Maas et al., Non-perturbative aspects in a weakly interacting Higgs sector (36th International Conference on High-Energy Physics; arxiv: 1211.5301 [hep-lat]; November 2012)
A. Maas, Bound-state/elementary-particle 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 [hep-lat]; May 2012)
A. Maas, Employing the perturbative definition of the Higgs mass in a non-perturbative calculation (29th international symposium on lattice field theory; arxiv: 1110.0908 [hep-lat]; October 2011)
V. Macher et al., A study of the influence of the gauge group on the Dyson-Schwinger equations for scalar-Yang-Mills systems (International Journal of Modern Physics A Vol. 27, No. 18 (2012) 1250098; arxiv: 1106.5381 [hep-ph]; June 2011)
A. Maas, Accessing the properties of an elementary Higgs beyond perturbation theory (35th international conference on high-energy 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 [hep-lat]; July 2010)

Physics beyond the standard model

Y. Dengler et al., Scattering of dark pions in an Sp(4) gauge theory (40th international symposium on lattice field theory, arXiv: 2311.18549 [hep-lat], December 2023)
A. Maas et al., The manifestly gauge-invariant spectrum of the Minimal Supersymmetric Standard Model (arxiv: 2307.10282 [hep-ph], July 2023)
E. Bennett et al., Singlets in gauge theories with fundamental matter (arxiv: 2304.07191 [hep-lat], April 2023)
E. Dobson et al., The spectrum of GUT-like gauge-scalar models (39th international symposium on lattice field theory, arxiv: 2211.16937 [hep-lat], November 2022)
F. Zieler et al., Strongly Interacting Dark Matter from Sp(4) Gauge Theory, (Quark Confinement and the Hadron Sepctrum XV, arxiv: 2211.11272 [hep-ph], November 2022)
E. Dobson et al., Multiple breaking patterns in the Brout-Englert-Higgs effect beyond perturbation theory (Annals of Physics 457 (2023) 169404; arxiv: 2211.05812 [hep-lat], November 2022)
F. Zierler et al., Singlet Mesons in Dark Sp(4) Theories (39th international symposium on lattice field theory; 2210.11187 [hep-lat], October 2022)
A. Maas, Towards testing the Fröhlich-Morchio-Strocchi mechanism in quantum gravity (ICHEP 2022, arxiv: 2209.10961 [hep-th], September 2022)
S. Kulkarni et al., Low-energy effective description of dark Sp(4) theories (arxiv: 2202.05191 [hep-ph]; February 2022)
A. Maas et al., Exploratory applications of the Fröhlich-Morchio-Strocchi mechanism in quantum gravity (Phys.Rev.D 107, 025013 (2023); arxiv: 2202.05117 [hep-th]; Februrary 2022)
E. Dobson et al., Exploring SU(3)-Higgs theories (38th international symposium on lattice field theory; arxiv:2110.15670 [hep-lat]; October 2021)
A. Maas et al., Strong isospin breaking in Sp(4) gauge theory (38th international symposium on lattice field theory; arxiv:2109.14377 [hep-lat]; September 2021)
V. Afferrante et al., A composite massless vector boson (Phys. Rev. D 101, 114506 (2020); arxiv:2002.08221 [hep-lat]; February 2020)
A. Maas, The Fröhlich-Morchio-Strocchi mechanism and quantum gravity (SciPost Phys. 8, 051 (2020), arxiv:1908.02140 [hep-th]; August 2019)
V. Afferrante et al., Toward the spectrum of the SU(2) adjoint Higgs model (ALPS 2019; arxiv:1906.11193 [hep-lat]; June 2019)
A. Maas, The quenched SU(2) scalar-gluon vertex in minimal Landau gauge (Phys. Rev. D 99, 114503 (2019), arxiv:1902.10568 [hep-lat]; February 2019; Code)
A. Maas, The quenched SU(2) adjoint scalar propagator in minimal Landau gauge (Phys. Rev. D 99, 054504 (2019), arxiv:1809.08929 [hep-lat]; September 2018; Code)
P. Törek et al., On observable particles in theories with a Brout-Englert-Higgs effect (ALPS 2018; arxiv:1806.11373 [hep-lat]; June 2018)
A. Maas et al., The spectrum of an SU(3) gauge theory with a fundamental Higgs field (Annals of Physics 397, 303 (2018); arxiv:1804.04453 [hep-lat]; 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 [hep-lat]; October 2017)
A. Maas et al., On the observable spectrum of theories with a Brout-Englert-Higgs effect (Annals of Physics 402 18 (2019); arxiv:1709.07477 [hep-ph]; September 2017)
P. Törek et al., Testing gauge-invariant perturbation theory (34th international symposium on lattice field theory; arxiv:1610.04188 [hep-lat]; 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 [hep-lat]; July 2016)
A. Maas et al., Gauge invariance and the physical spectrum in the two-Higgs-doublet model (Phys. Rev. D 93, 056005; arxiv:1601.02006 [hep-ph]; 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 [hep-ph]; September 2015)
A. Maas, Field theory as a tool to constrain new physics models (Mod. Phys. Lett. A, 30, 1550135 (2015); arxiv:1502.02421 [hep-ph]; February 2015)
A. Maas, Observables in Higgsed Theories (37th International Conference on High-Energy Physics; arxiv:1410.2740 [hep-lat]; 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 Landau-gauge adjoint quark propagator (JHEP 01 (2013) 001; arxiv:1304.4423 [hep-lat]; April 2013)
A. Maas, On the gauge boson's properties in a candidate technicolor theory (JHEP 05 (2011) 077; arxiv: 1102.5023 [hep-lat]; February 2011)
E. Bilgici et al., Adjoint quarks and fermionic boundary conditions (JHEP 11 (2009) 035; arxiv:0904.3450 [hep-lat]; April 2009)

Univ.-Prof. Dipl.-Phys. Dr.rer.nat.

Axel Torsten Maas

Institut für Physik
+43 316 380 - 5231
axel.maas(at)uni-graz.at
https://particle.uni-graz.at/en/structures-and-observables/