MPIK

Book

Job announcements

We always offer Bachelor, Master, Diploma and Ph.D. theses!
See also thetalk at PIzzA-Night
Publications and Theses.

For publications of group members written before joining the research group, please consult their individual homepages which can be found above under "People".

Publications

198) T. Cheng, M. Lindner, W. Rodejohann:
Microscopic and Macroscopic Effects in the Decoherence of Neutrino Oscillations
arXiv:2204.10696 [hep-ph]
197) G.-Y. Huang, S. Jana, M. Lindner, W. Rodejohann:
Probing Heavy Sterile Neutrinos at Ultrahigh Energy Neutrino Telescopes via the Dipole Portal
arXiv:2204.10347 [hep-ph]
196) The KATRIN Collaboration:
KATRIN: Status and Prospects for the Neutrino Mass and Beyond
arXiv:2203.08059 [nucl-ex]
195) J. De Blas, G.-Y. Huang, W. Rodejohann, et al.:
The physics case of a 3 TeV muon collider stage
arXiv:2203.07261 [hep-ph]
194) The KATRIN Collaboration:
New Constraint on the Local Relic Neutrino Background Overdensity with the First KATRIN Data Runs
arXiv:2202.04587 [nucl-ex]
193) The KATRIN Collaboration:
Improved eV-scale Sterile-Neutrino Constraints from the Second KATRIN Measurement Campaign
arXiv:2201.115593 [hep-ex], Phys. Rev. D 105, 072004 (2022)
192) A. Khan:
Electric charge dequantization with Dirac neutrinos in CEνNS
arXiv:2201.10578 [hep-ph]
191) I. Bischer, P.S. Bhupal Dev, W. Rodejohann, X.-J. Xu, Y. Zhang:
Searching for new physics from SMEFT and leptoquarks at the P2 experiment
arXiv:2112.12051 [hep-ph]
190) G.-Y. Huang, S. Jana, M. Lindner, W. Rodejohann:
Probing New Physics at Future Tau Neutrino Telescopes
arXiv:2112.09476 [hep-ph], JCAP 2202, 038 (2022)
189) C. Benso, W. Rodejohann, M. Sen, A. Ujjayini Ramachandran:
Sterile neutrino dark matter production in presence of non-standard neutrino self-interactions: an EFT approach
arXiv:2112.00758 [hep-ph], Phys. Rev. D 105, 055016 (2022)
188) G.-Y. Huang, N. Nath:
Neutrino meets ultralight dark matter: 0νββ decay and cosmology
arXiv:2111.08732 [hep-ph]
187) M. Sajjad Athar, W. Rodejohann, et al.:
Status and Perspectives of Neutrino Physics
arXiv:2111.07586 [hep-ph], Prog. Part. Nucl. Phys. 124, 103947 (2022)
186) G.-Y. Huang, W. Rodejohann:
Tritium beta decay with modified neutrino dispersion relations: KATRIN in the dark sea
arXiv:2110.03718 [hep-ph]
185) T. Marrodán Undagoitia, W. Rodejohann, T. Wolf, C.E. Yaguna:
Laboratory limits on the annihilation or decay of dark matter particles
arXiv:2107.05685 [hep-ph], PETP 2022, 013F01 (2021)
184) The KATRIN Collaboration:
First direct neutrino-mass measurement with sub-eV sensitivity
arXiv:2105.08533 [hep-ex], Nature Physics 18, 160-166 (2022)
183) The KATRIN Collaboration:
Precision measurement of the electron energy-loss function in tritium and deuterium gas for the KATRIN experiment
arXiv:2105.06930 [physics.ins-det], Eur. Phys. J. C81, 579 (2021)
182) A.N. Khan, D.W. McKay, W. Rodejohann:
CP-Violating and Charged Current Neutrino Non-standard Interactions in CEνNS
arXiv:2104.00425 [hep-ph], Phys. Rev. D 104, 015019 (2021)
181) P.S. Bhupal Dev, W. Rodejohann, X.-J. Xu, Y. Zhang:
Searching for Z' Bosons at the P2 Experiment
arXiv:2103.09067 [hep-ph], JHEP 2106, 039 (2021)
180) The KATRIN Collaboration:
The Design, Construction, and Commissioning of the KATRIN Experiment
arXiv:2103.04755 [physics.ins-det], JINST 16, T08015 (2021)
179) G.-Y. Huang, S. Jana, F. Queiroz, W. Rodejohann:
Probing the RK(*) Anomaly at a Muon Collider
arXiv:2103.01617 [hep-ph], Phys. Rev. D 105, 015013 (2022)
178) G.-Y. Huang, W. Rodejohann:
Solving the Hubble tension without spoiling Big Bang Nucleosynthesis
arXiv:2102.04280 [hep-ph], Phys. Rev. D 103, 123007 (2021)
177) G.-Y. Huang, F. Queiroz, W. Rodejohann:
Gauged Lμ - Lτ at a muon collider
arXiv:2101.04956 [hep-ph], Phys. Rev. D 103, 095005 (2021)
176) I. Bischer, C. Döring, A. Trautner:
Simultaneous Block Diagonalization of Matrices of Finite Order
arXiv:2012.14440 [math-ph], J. Phys. A 54, 085203 (2021)
175) X. Luo, W. Rodejohann, X.-J. Xu:
Dirac Neutrinos and Neff II: the freeze-in case
arXiv:2011.13059 [hep-ph], JCAP 2103, 082 (2021)
174) G.-y. Huang, S. Zhou:
Tentative sensitivity of future 0vbb-decay experiments to neutrino masses and Majorana CP phases
arXiv:2010.16281 [hep-ph] JHEP 2103, 084 (2021)
173) L. Graf, S. Jana, M. Lindner, W. Rodejohann, X.-J. Xu:
Flavoured Neutrinoless Double Beta Decay
arXiv:2010.15109 [hep-ph], Phys. Rev. D 103, 055007 (2021)
172) J.L. Diaz-Cruz, U.J. Saldana-Salazar, K. Tame-Narvaez, V.T. Tenorth:
Natural 2HDMs without FCNCs
arXiv:2010.05923 [hep-ph], Phys. Rev. D 104, 035018 (2021)
171) A.N. Khan:
Constraints on General Light Mediators from PandaX-II Electron Recoil Data
arXiv:2008.10279 [hep-ph], Phys. Lett. B 819, 136415 (2021)
170) I. Bischer, T. Plehn, W. Rodejohann:
Dark Matter EFT, the Third -- Neutrino WIMPs
arXiv:2008.04718 [hep-ph], SciPost Phys. 10, 039 (2021)
169) S. Jana, Vishnu P.K., W. Rodejohann, S. Saad:
Dark matter assisted lepton anomalous magnetic moments and neutrino masses
arXiv:2008.02377 [hep-ph], Phys. Rev. D 102, 075003 (2020)
168) A.N. Khan:
Can nonstandard neutrino interactions explain the XENON1T spectral excess?
arXiv:2006.12887 [hep-ph], Phys. Lett. B 809, 135782 (2020)
167) T. Rink, W. Rodejohann, K. Schmitz:
Leptogenesis and low-energy CP violation in a type-II-dominated left-right seesaw model
arXiv:2006.03021 [hep-ph], Nucl. Phys. B972, 115552 (2021)
166) S. Centelles Chulia, C. Döring, W. Rodejohann, U.J. Saldana-Salazar:
Natural axion model from flavour
arXiv:2005.13541 [hep-ph], JHEP 2009, 137 (2020)
165) X. Luo, W. Rodejohann, X.-J. Xu:
Dirac Neutrinos and Neff
arXiv:2005.01629 [hep-ph], JCAP 2006, 058 (2020)
164) C. Jaramillo, M. Lindner, W. Rodejohann:
Seesaw neutrino dark matter by freeze-out
arXiv:2004.12904 [hep-ph], JCAP 2104, 023 (2021)
163) F.F. Deppisch, L. Graf, W. Rodejohann, X.-J. Xu:
Neutrino Self-Interactions and Double Beta Decay
arXiv:2004.11919 [hep-ph], Phys. Rev. D 102, 051701(R) (2020)
162) P.S. Bhupal Dev, W. Rodejohann, X.-J. Xu, Y. Zhang:
MUonE sensitivity to new physics explanations of the muon anomalous magnetic moment
arXiv:2002.04822 [hep-ph], JHEP 2005, 053 (2020)
161) A.E. Carcamo Hernandez, C.O. Dib, U.J. Saldana-Salazar:
When tanβ meets all the mixing angles
arXiv:2001.07140 [hep-ph], Phys. Lett. B 809, 135750 (2020)
160) S. Centelles Chulia, W. Rodejohann, U.J. Saldana-Salazar:
Two-Higgs-Doublet Models with a Flavored Z2
arXiv:1911.06824 [hep-ph], Phys. Rev. D 101, 035013 (2020)
159) C. Benso, V. Brdar, M. Lindner, W. Rodejohann:
Prospects for Finding Sterile Neutrino Dark Matter at KATRIN
arXiv:1911.00328 [hep-ph], Phys. Rev. D 100, 115035 (2019)
158) A.N. Khan, H. Nunokawa, S.J. Parke:
Why matter effects matter for JUNO
arXiv:1910.12900 [hep-ph], Phys. Lett. B 803, 135354 (2020)
157) G.-Y. Huang, W. Rodejohann, S. Zhou:
Effective neutrino masses in KATRIN and future tritium beta-decay experiments
arXiv:1910.08332 [hep-ph], Phys. Rev. D 101, 016003 (2020)
156) W. Rodejohann, X.-J. Xu:
Loop-enhanced rate of neutrinoless double beta decay
arXiv:1907.12478 [hep-ph], JHEP 1911, 029 (2019)
155) A.N. Khan, W. Rodejohann:
New physics from COHERENT data with improved Quenching Factors
arXiv:1907.12444 [hep-ph], Phys. Rev. D 100, 113003 (2019)
154) A.N. Khan, W. Rodejohann, X.-J. Xu:
Borexino and General Neutrino Interactions
arXiv:1906.12102 [hep-ph], Phys. Rev. D 101, 055047 (2020)
153) I. Bischer, W. Rodejohann:
General Neutrino Interactions from an Effective Field Theory Perspective
arXiv:1905.08699 [hep-ph], Nuc. Phys. B 947, 114746 (2019)
152) A.E. Carcamo Hernandez, J. Marchant Gonzalez, U.J. Saldana-Salazar:
Viable low-scale model with Universal and Inverse Seesaw Mechanisms
arXiv:1904.09993 [hep-ph], Phys. Rev. D 100, 035024 (2019)
151) U.J. Saldana-Salazar, W. Rodejohann:
Multi-Higgs-Doublet Models and Singular Alignment
arXiv:1903.00983 [hep-ph], JHEP 1907, 036 (2019)
150) M.J. Dolinski, A.W.P. Poon, W. Rodejohann:
Neutrinoless Double-Beta Decay: Status and Prospects
arXiv:1902.04097 [nucl-ex], Ann. Rev. Nucl. Part. Sci. 69, 219 (2019)
149) I. Bischer, T. Grandou, R. Hofmann:
On Quantum Fields at High Temperature
arXiv:1901.06338 [hep-th], Universe 5, 26 (2019)
148) J. Heeck, M. Lindner, W. Rodejohann, S. Vogl:
Non-Standard Neutrino Interactions and Neutral Gauge Bosons
arXiv:1812.04067 [hep-ph], SciPost Phys. 6, 038 (2019)
147) P.S. Bhupal Dev, R.N. Mohapatra, W. Rodejohann, X.-J. Xu:
Vacuum structure of the left-right symmetric model
arXiv:1811.06869 [hep-ph], JHEP 1902, 154 (2019)
146) G. Arcadi, J. Heeck, F. Heizmann, S. Mertens, F. Queiroz, W. Rodejohann, M. Slezak, K. Valerius:
Tritium beta decay with additional emission of new light bosons
arXiv:1811.03530 [hep-ph], JHEP 1901, 206 (2019)
145) V. Brdar, W. Rodejohann, X.-J. Xu:
Producing a new Fermion in Coherent Elastic Neutrino-Nucleus Scattering: from Neutrino Mass to Dark Matter
arXiv:1810.03626 [hep-ph], JHEP 1812, 024 (2018)
145) I. Bischer, W. Rodejohann:
General Neutrino Interactions at the DUNE Near Detector
arXiv:1810.02220 [hep-ph], Phys. Rev. D 99, 036006 (2019)
144) I. Bischer, W. Rodejohann, X.-J. Xu:
Loop-induced Neutrino Non-Standard Interactions
arXiv:1807.08102 [hep-ph], JHEP 1810, 096 (2018)
143) M. Lindner, F. Queiroz, W. Rodejohann, X.-J. Xu:
Neutrino-Electron Scattering: General Constraints on Z' and Dark Photon Models
arXiv:1803.00060 [hep-ph], JHEP 1805, 098 (2018)
142) Y. Farzan, M. Lindner, W. Rodejohann, X.-J. Xu:
Probing neutrino coupling to a light scalar with coherent neutrino scattering
arXiv:1802.05171 [hep-ph], JHEP 1805, 066 (2018)
141) M. Dutra, M. Lindner, S. Profumo, F. Queiroz, W. Rodejohann, C. Siqueira:
MeV Dark Matter Complementarity and the Dark Photon Portal
arXiv:1801.05447 [hep-ph], JCAP 1803, 037 (2018)
140) G. Arcadi, M. Lindner, F. Queiroz, W. Rodejohann, S. Vogl:
Pseudoscalar Mediators: A WIMP model at the Neutrino Floor
arXiv:1711.02110 [hep-ph], JCAP 1803, 042 (2018)
139) A. De Angelis, W. Rodejohann, et al. :
Science with e-ASTROGAM (A space mission for MeV-GeV gamma-ray astrophysics)
arXiv:1711.01265 [hep-ph], JHEAp 19 (2018) 1
138) J. Heeck, W. Rodejohann:
Lepton Flavor Violation with Displaced Vertices
arXiv:1710.02062 [hep-ph], Phys. Lett. B 776, 385 (2018)
137) M. Lindner, W. Rodejohann, X.-J. Xu:
Neutrino Parameters from Reactor and Accelerator Neutrino Experiments
arXiv:1709.10252 [hep-ph], Phys. Rev. D 97, 075024 (2018)
136) G. Arcadi, M. Campos, A. Masiero, M. Lindner, F. Queiroz:
The Dark Sequential Z' Portal: Collider and Direct Detection Experiments
arXiv:1708.00890 [hep-ph], Phys. Rev. D 97, 043009 (2018)
135) S.F. Ge, W. Rodejohann, K. Zuber:
Half-life Expectations for Neutrinoless Double Beta Decay in Standard and Non-Standard Scenarios
arXiv:1707.07904 [hep-ph], Phys. Rev. D 96, 055019 (2017)
134) B.J. Kavanagh, F. Queiroz, W. Rodejohann, C.E. Yaguna:
Prospects for determining the particle/antiparticle nature of WIMP dark matter with direct detection experiments
arXiv:1706.07819 [hep-ph], JHEP 1710, 059 (2017)
133) M. Campos, D. Cogollo, M. Lindner, T. Melo, F. Queiroz, W. Rodejohann:
Neutrino Masses and Absence of Flavor Changing Interactions in the 2HDM from Gauge Principles
arXiv:1705.05388 [hep-ph], JHEP 1708, 092 (2017)
132) W. Rodejohann, X.-J. Xu:
Trimaximal mu-tau reflection symmetry
arXiv:1705.02027 [hep-ph], Phys. Rev. D 96, 055039 (2017)
131) P.S. Bhupal Dev, C. Miralles Vila, W. Rodejohann:
Naturalness in testable type II seesaw scenarios
arXiv:1703.00828 [hep-ph], Nucl. Phys. B921, 436 (2017)
130) M. Campos, F. Queiroz, C.E. Yaguna, C. Weniger:
Search for right-handed neutrinos from dark matter annihilation with gamma-rays
arXiv:1702.06145 [hep-ph], JCAP 1707, 016 (2017)
129) W. Rodejohann, C. Yaguna, X.-J. Xu:
Distinguishing between Dirac and Majorana neutrinos in the presence of general interactions
arXiv:1702.05721 [hep-ph], JHEP 1705, 024 (2017)
128) S.-F. Ge, M. Lindner, W. Rodejohann:
New Physics and Atmospheric Neutrino Trident Production with PINGU and ORCA
arXiv:1702.02617 [hep-ph], Phys. Lett. B 772, 164 (2017)
127) M. Lindner, W. Rodejohann, X.-J. Xu:
Coherent Neutrino-Nucleus Scattering and new Neutrino Interactions
arXiv:1612.04150 [hep-ph], JHEP 1703, 097 (2017)
126) G. Bambhaniya, P.S. Bhupal Dev, S. Goswami, S. Khan, W. Rodejohann:
Naturalness, Vacuum Stability and Leptogenesis in the Minimal Seesaw Model
arXiv:1611.03827 [hep-ph], Phys. Rev. D 95, 095016 (2017)
125) C.E. Yaguna:
Isospin-violating dark matter in the light of recent data
arXiv:1610.08683 [hep-ph], Phys. Rev. D 95, 055015 (2017)
124) F. Queiroz, W. Rodejohann, C.E. Yaguna:
Is the dark matter particle its own antiparticle?
arXiv:1610.06581 [hep-ph], Phys. Rev. D 95, 095010 (2017)
123) P.S. Bhupal Dev, R.N. Mohapatra, Y. Zhang:
Naturally Stable Right-Handed Neutrino Dark Matter
arXiv:1608.06266 [hep-ph], JHEP 1611, 077 (2016)
122) M. Lindner, A. Merle, M. Platscher, C.E. Yaguna:
Fermionic WIMPs and Vacuum Stability in the Scotogenic Model
arXiv:1608.00577 [hep-ph], Phys. Rev. D 94, 115027 (2016)
121) W. Altmannshofer, C.-Y. Chen, P.S. Bhupal Dev, A. Soni:
Lepton flavor violating Z' explanation of the muon anomalous magnetic moment
arXiv:1607.06832 [hep-ph], Phys. Lett. B 762, 389 (2016)
120) S. Patra, W. Rodejohann, C.E. Yaguna:
A new B-L model without right-handed neutrinos
arXiv:1607.04029 [hep-ph], JHEP 1609, 076 (2016)
119) P.S. Bhupal Dev, D. Kazanas, R.N. Mohapatra, V.L. Teplitz, Y. Zhang:
Heavy right-handed neutrino dark matter and PeV neutrinos at IceCube
arXiv:1606.04517 [hep-ph], JCAP 1608, 034 (2016)
118) P.S. Bhupal Dev, D.K. Ghosh, W. Rodejohann:
R-parity Violating Supersymmetry at IceCube
arXiv:1605.09743 [hep-ph], Phys. Lett. B 762, 116 (2016)
117) M. Campos, W. Rodejohann:
Testing keV sterile neutrino dark matter in future direct detection experiments
arXiv:1605.02918 [hep-ph], Phys. Rev. D 94, 095010 (2016)
116) M. Lindner, F. Queiroz, W. Rodejohann, C.E. Yaguna:
Left-Right Symmetry and Lepton Number Violation at the Large Hadron Electron Collider
arXiv:1604.08596 [hep-ph], JHEP 1606, 140 (2016)
115) M. Lindner, F. Queiroz, W. Rodejohann:
Dilepton bounds on left-right symmetry at the LHC run II and neutrinoless double beta decay
arXiv:1604.07419 [hep-ph], Phys. Lett. B 762, 190 (2016)
114) P.O. Ludl, W. Rodejohann:
Direct Neutrino Mass Experiments and Exotic Charged Current Interactions
arXiv:1603.08690 [hep-ph], JHEP 1606, 040 (2016)
113) S. Profumo, F. Queiroz C.E. Yaguna:
Extending Fermi-LAT and H.E.S.S. Limits on Gamma-ray Lines from Dark Matter Annihilation
arXiv:1602.08501 [hep-ph], MNRAS 461, 3976 (2016)
112) F. Queiroz, C. Weniger, C.E. Yaguna:
Gamma Ray Limits from Neutrino Lines
arXiv:1602.05966 [hep-ph], JCAP 1605, 050 (2016)
111) P.S. Bhupal Dev, R.N. Mohapatra, Y. Zhang:
Probing the Higgs Sector of the Minimal Left-Right Symmetric Model at Future Hadron Colliders
arXiv:1602.05947 [hep-ph], JHEP 1605, 174 (2016)
110) M. Klasen, D.R. Lamprea, C.E. Yaguna:
Lepton flavor violation and scalar dark matter in a radiative model of neutrino masses
arXiv:1602.05137 [hep-ph], Eur. Phys. J. C78, 88 (2018)
109) P.S. Bhupal Dev, A. Mazumdar:
Probing the Scale of New Physics by Advanced LIGO/VIRGO
arXiv:1602.04203 [hep-ph], Phys. Rev. D 93, 104001 (2016)
108) A. Ibarra, C.E. Yaguna, O. Zapata:
Direct detection of fermion dark matter in the radiative seesaw model
arXiv:1601.01163 [hep-ph], Phys. Rev. D 93, 035012 (2016)
107) P.S. Bhupal Dev, R.N. Mohapatra, Y. Zhang:
Quark Seesaw Vectorlike Fermions and Diphoton Excess
arXiv:1512.08507 [hep-ph], JHEP 1602, 186 (2016)
106) B.C. Allanach, P.S. Bhupal Dev, S.A. Renner, K. Sakurai:
Di-photon Excess Explained by a Resonant Sneutrino in R-parity Violating Supersymmetry
arXiv:1512.07645 [hep-ph], Phys. Rev. D 93, 115022 (2016)
105) P.S. Bhupal Dev, D. Teresi:
Asymmetric Dark Matter in the Sun and the Diphoton Excess at the LHC
arXiv:1512.07243 [hep-ph], Phys. Rev. D 94, 025001 (2016)
104) G. Bambhaniya, P.S. Bhupal Dev, S. Goswami, M. Mitra:
The Scalar Triplet Contribution to Lepton Flavour Violation and Neutrinoless Double Beta Decay in Left-Right Symmetric Model
arXiv:1512.00440 [hep-ph], JHEP 1604, 046 (2016)
103) F. Queiroz, C.E. Yaguna:
The CTA aims at the Inert Doublet Model
arXiv:1511.05967 [hep-ph], JHEP 1602, 038 (2016)
102) C.E. Yaguna:
Singlet-Doublet Dirac Dark Matter
arXiv:1510.06151 [hep-ph], Phys. Rev. D 92, 115002 (2015)
101) M. Lindner, W. Rodejohann, X.-J. Xu:
Sterile Neutrinos in the light of IceCube
arXiv:1510.00666 [hep-ph], JHEP 1601, 124 (2016)
100) W. Rodejohann, C.E. Yaguna:
Scalar Dark Matter in the B-L Model
arXiv:1509.04036 [hep-ph], JCAP 1512, 032 (2015)
99) W. Rodejohann, X.-J. Xu:
A left-right symmetric flavor symmetry model
arXiv:1509.03265 [hep-ph], Eur. Phys. J. C 76,138 (2016)
98) S.-F. Ge, M. Lindner, S. Patra:
New physics effects on neutrinoless double beta decay from right-handed current
arXiv:1508.07286 [hep-ph], JHEP 1510, 077 (2015)
97) W. Rodejohann, X.-J. Xu:
Robustness of neutrino mass matrix predictions
arXiv:1508.06063 [hep-ph], Nucl. Phys. B 899, 463 (2015)
96) F.F. Deppisch, L. Graf, S. Kulkarni, S. Patra, W. Rodejohann, N. Sahu, U. Sarkar:
Reconciling the 2 TeV Excesses at the LHC in a Linear Seesaw Left-Right Model
arXiv:1508.05940 [hep-ph], Phys. Rev. D 93, 013011 (2016)
95) S.-F. Ge, W. Rodejohann:
JUNO and Neutrinoless Double Beta Decay
arXiv:1507.05514 [hep-ph], Phys. Rev. D 92, 093006 (2015)
94) H.-J. He, W. Rodejohann, X.-J. Xu:
Origin of Constrained Maximal CP Violation in Flavor Symmetry
arXiv:1507.03541 [hep-ph], Phys. Lett. B 751, 586 (2015)
93) J. Heeck, S. Patra:
Minimal Left-Right Dark Matter
arXiv:1507.01584 [hep-ph], Phys. Rev. Lett. 115, 121804 (2015)
92) H. Päs, W. Rodejohann:
Neutrinoless Double Beta Decay
arXiv:1507.00170 [hep-ph], New J. Phys. 17, 115010 (2015)
91) S. Patra, F. Queiroz, W. Rodejohann:
Stringent Dilepton Bounds on Left-Right Models using LHC data
arXiv:1506.03456 [hep-ph], Phys. Lett. B 752, 186 (2016)
90) P. Humbert, M. Lindner, S. Patra, J. Smirnov:
Lepton Number Violation within the Conformal Inverse Seesaw
arXiv:1505.07453 [hep-ph], JHEP 1509, 064 (2015)
89) X.-J. Xu:
Why is the Neutrino Oscillation Formula expanded in Delta m*2(21) / Delta m*2(31) still accurate near the solar Resonance in Matter?
arXiv:1502.02503 [hep-ph], JHEP 1510, 090 (2015)
88) W. Rodejohann, X.-J. Xu:
On the Origin of Symmetric CKM and PMNS Matrices
arXiv:1501.02991 [hep-ph], Phys. Rev. D 91, 056004 (2015)
87) J. Heeck, M. Holthausen, W. Rodejohann, Y. Shimizu:
Higgs to muon and tau in Abelian and Non-Abelian Flavor Symmetry Models
arXiv:1412.3671 [hep-ph], Nucl. Phys. B 896, 281 (2015)
86) J. Heeck:
Unbroken B-L Symmetry
arXiv:1408.6845 [hep-ph], Phys. Lett. B 739, 256 (2014)
85) H.-J. He, W. Rodejohann, X.-J. Xu:
Constraining Astrophysical Neutrino Flavor Composition from Leptonic Unitarity
arXiv:1407.3736 [hep-ph], JCAP 1412, 039 (2014)
84) W. Rodejohann, H. Zhang:
Signatures of Extradimensional Sterile Neutrinos
arXiv:1407.2739 [hep-ph], Phys. Lett. B 737, 81 (2014)
83) I. Girardi, D. Meloni, T. Ohlsson, H. Zhang, S. Zhou:
Constraining Sterile Neutrinos Using Reactor Neutrino Experiments
arXiv:1405.6540 [hep-ph], JHEP 1408, 057 (2014)
82) J. Barry, J. Heeck, W. Rodejohann:
Sterile neutrinos and right-handed currents in KATRIN
arXiv:1404.5955 [hep-ph], JHEP 1407, 081 (2014)
81) D. Schmidt, T. Schwetz, H. Zhang:
Status of the Zee-Babu model for neutrino mass and possible tests at a like-sign linear collider
arXiv:1402.2251 [hep-ph], Nucl. Phys. B 885, 524 (2014)
80) W. Rodejohann, H. Zhang:
Reducing theta(13) to 9 degrees
arXiv:1402.2226 [hep-ph], Phys. Lett. B 732, 174 (2014)
79) T. Ohlsson, H. Zhang, S. Zhou:
Nonstandard Interaction Effects on Neutrino Parameters at medium-baseline Reactor Antineutrino Experiments
arXiv:1310.5917 [hep-ph], Phys. Lett. B 728, 148 (2014)
78) L. Lavoura, W. Rodejohann, A. Watanabe:
Reproducing lepton mixing in a texture zero model
arXiv:1307.6421 [hep-ph], Phys. Lett. B 726, 352 (2013)
77) J. Heeck:
Leptogenesis with Lepton-Number-Violating Dirac Neutrinos
arXiv:1307.2241 [hep-ph], Phys. Rev. D 88, 076004 (2013)
76) A. Dueck, W. Rodejohann:
Fits to SO(10) Grand Unified Models
arXiv:1306.4468 [hep-ph], JHEP 1309, 024 (2013)
75) J. Heeck, W. Rodejohann:
Neutrinoless Quadruple Beta Decay
arXiv:1306.0580 [hep-ph], EPL 103, 32001 (2013)
EPL Highlights of the Year 2013 (Elementary Particles, Fields & Nuclear Physics). See the search by NEMO-3 for this decay and the report at physicsworld.
74) P.S. Bhupal Dev, S. Goswami, M. Mitra, W. Rodejohann:
Constraining Neutrino Mass from Neutrinoless Double Beta Decay
arXiv:1305.0056 [hep-ph], Phys. Rev. D 88, 091301(R) (2013)
73) J. Heeck:
How stable is the photon?
arXiv:1304.2821 [hep-ph], Phys. Rev. Lett. 111, 021801 (2013)
Media coverage: APS Physics Synopsis, Scientific American, Welt der Physik, Pro-Physik, Physics World, LiveScience, Sterne und Weltraum, IDW
72) J. Heeck:
Gauged Flavor Symmetries
Nucl.Phys. Proc. Suppl. 237-238, 336 (2013)
(talk given at NOW 2012, the slides can be found here)
71) J. Barry, W. Rodejohann:
Lepton number and lepton flavour violation in left-right symmetric theories
arXiv:1303.6324 [hep-ph], JHEP 1309, 153 (2013)
70) T. Ohlsson, H. Zhang, S. Zhou:
Effects of non-standard neutrino interactions at PINGU
arXiv:1303.6130 [hep-ph], Phys. Rev. D 88, 013001 (2013)
69) H. Zhang:
Light sterile neutrinos from flavor symmetries
J. Phys. Conf. Ser. 408, 012029 (2013)
(talk given at Nufact 11, the slides can be found here)
68) T. Ohlsson, H. Zhang, S. Zhou:
Probing the leptonic Dirac CP-violating phase in neutrino oscillation experiments
arXiv:1301.4333 [hep-ph], Phys. Rev. D 87, 053006 (2013)
67) N. Memenga, W. Rodejohann, H. Zhang:
A(4) Flavor Symmetry Model for Dirac-Neutrinos and Sizable U(e3)
arXiv:1301.2963 [hep-ph], Phys. Rev. D 87, 053021 (2013)
66) J. Heeck, W. Rodejohann:
Sterile Anarchy
arXiv:1211.5295 [hep-ph], Phys. Rev. D 87, 037301 (2013)
65) T. Ohlsson, H. Zhang, S. Zhou:
Radiative corrections to the leptonic Dirac CP-violating phase
arXiv:1211.3153 [hep-ph], Phys. Rev. D 87, 013012 (2013)
64) J. Heeck, H. Zhang:
Exotic Charges, Multicomponent Dark Matter and Light Sterile Neutrinos
arXiv:1211.0538 [hep-ph], JHEP 1305, 164 (2013)
63) H. Paes, J. Barry, J. Heeck, et al.:
Proceedings of the second workshop on Flavor Symmetries and consequences in Accelerators and Cosmology (FLASY2012)
arXiv:1210.6239 [hep-ph], proceedings to "FLASY 12".
62) A. Bhattacharya, R. Gandhi, W. Rodejohann, A. Watanabe:
On the interpretation of IceCube cascade events in terms of the Glashow resonance
arXiv:1209.2422 [hep-ph]
61) J. Heeck:
Seesaw parametrization for n right-handed neutrinos
arXiv:1207.5521 [hep-ph], Phys. Rev. D 86, 093023 (2012)
60) P. Grothaus, M. Lindner, Y. Takanishi:
Naturalness of Neutralino Dark Matter
arXiv:1207.4434 [hep-ph], JHEP 1307, 094 (2013)
59) W. Rodejohann, H. Zhang:
Simple two Parameter Description of Lepton Mixing
arXiv:1207.1225 [hep-ph], Phys. Rev. D 86, 093008 (2012)
58) W. Rodejohann:
Neutrinoless Double Beta Decay and Neutrino Physics
arXiv:1206.2560 [hep-ph], J. Phys. G 39, 124008 (2012)
57) K.N. Abazajian, W. Rodejohann, H. Zhang, et al.:
Light Sterile Neutrinos: A White Paper
arXiv:1204.5379 [hep-ph]
56) J. Chakraborrty, P. Ghosh, W. Rodejohann:
Lower Limits on mu to e gamma from new Measurements on U(e3)
arXiv:1204.1000 [hep-ph], Phys. Rev. D 86, 075020 (2012)
55) T. Araki, J. Heeck, J. Kubo:
Vanishing Minors in the Neutrino Mass Matrix from Abelian Gauge Symmetries
arXiv:1203.4951 [hep-ph], JHEP 1207, 083 (2012)
54) W. Rodejohann, H. Zhang:
Impact of massive neutrinos on the Higgs self-coupling and electroweak vacuum stability
arXiv:1203.3825 [hep-ph], JHEP 1206, 22 (2012)
53) J. Barry, L. Dorame, W. Rodejohann:
Linear Collider Test of a Neutrinoless Double Beta Decay Mechanism in left-right Symmetric Theories
arXiv:1203.3365 [hep-ph], Eur. Phys. J. C 72, 2023 (2012)
52) J. Heeck, W. Rodejohann:
Neutrino Hierarchies from a Gauge Symmetry
arXiv:1203.3117 [hep-ph], Phys. Rev. D 85, 113017 (2012)
51) M. Hirsch, W. Rodejohann, et al.:
Proceedings of the first workshop on Flavor Symmetries and consequences in Accelerators and Cosmology (FLASY2011)
arXiv:1201.5525 [hep-ph], proceedings to "FLASY 11".
50) W. Rodejohann, M. Tanimoto, A. Watanabe:
Relating large U(e3) to the ratio of neutrino mass-squared differences
arXiv:1201.4936 [hep-ph], Phys. Lett. B 710, 636 (2012)
49) S. Choubey, M. Duerr, M. Mitra, W. Rodejohann:
Lepton Number and Lepton Flavor Violation through Color Octet States
arXiv:1201.3031 [hep-ph], JHEP 1205, 017 (2012)
48) M. Blennow, H. Melbeus, T. Ohlsson, H. Zhang:
RG running in UEDs in light of recent LHC Higgs mass bounds
arXiv:1112.5339 [hep-ph], Phys. Lett. B 712, 419 (2012)
47) W. Rodejohann:
Neutrinoless Double Beta Decay: Neutrino Physics
Acta Phys. Polon. B 43, 71 (2012)
(talk given at Ustron 11, the slides can be found here)
46) J. Heeck, W. Rodejohann:
Hidden O(2) and SO(2) Symmetry in Lepton Mixing
arXiv:1112.3628 [hep-ph], JHEP 1202, 094 (2012)
45) Z-Z. Xing, H. Zhang, S. Zhou:
Impacts of the Higgs mass on vacuum stability, running fermion masses and two-body Higgs decays
arXiv:1112.3112 [hep-ph], Phys. Rev. D 86, 013013 (2012)
44) H. Zhang:
Light Sterile Neutrino in the Minimal Extended Seesaw
arXiv:1110.6838 [hep-ph], Phys.Lett. B 714, 262 (2012)
43) J. Barry, W. Rodejohann, H. Zhang:
Sterile Neutrinos for Warm Dark Matter and the Reactor Anomaly in Flavor Symmetry Models
arXiv:1110.6382 [hep-ph], JCAP 1201, 052 (2012)
42) C.H. Kom, W. Rodejohann:
Four-jet final state in same-sign lepton colliders and neutrinoless double beta decay mechanisms
arXiv:1110.3220 [hep-ph], Phys. Rev. D 85, 015013 (2012)
41) J. Heeck, W. Rodejohann:
Kinetic and mass mixing with three abelian groups
arXiv:1109.1508 [hep-ph], Phys. Lett. B 705, 369 (2011)
40) W. Rodejohann, J.W.F. Valle:
Symmetrical Parametrizations of the Lepton Mixing Matrix
arXiv:1108.3484 [hep-ph], Phys. Rev. D 84, 073011 (2011)
39) A. Bhattacharya, R. Gandhi, W. Rodejohann, A. Watanabe:
The Glashow resonance at IceCube: signatures, event rates and p-p vs. p-gamma interactions
arXiv:1108.3163 [astro-ph.HE], JCAP 1110, 017 (2011)
38) W. Rodejohann, M. Shiozawa:
Messengers of New Physics, session summary from Neutrino Oscillation Workshop "NOW 2010"
Nucl. Phys. B (Proc. Suppl.) 217, 383 (2011)
37) J. Heeck, W. Rodejohann:
Gauged L(mu) - L(tau) Symmetry at the Electroweak Scale
arXiv:1107.5238 [hep-ph], Phys. Rev. D 84, 075007 (2011)
36) W. Rodejohann, H. Zhang, S. Zhou:
Systematic search for successful lepton mixing patterns with nonzero theta(13)
arXiv:1107.3970 [hep-ph], Nucl. Phys. B 855, 592 (2012)
35) H. Zhang, S. Zhou:
Radiative corrections and explicit perturbations to the tetra-maximal neutrino mixing with large theta(13)
arXiv:1107.1097 [hep-ph], Phys. Lett. B 704, 296 (2011)
34) W. Rodejohann:
Neutrinoless Double Beta Decay and Particle Physics
arXiv:1106.1334 [hep-ph], Int. J. Mod. Phys. E 20, 1833 (2011)
33) R. Leitner, M. Malinsky, B. Roskovec, H. Zhang:
Non-standard Anti-neutrino Interactions at Daya Bay
arXiv:1105.5580 [hep-ph], JHEP 1112, 001 (2011)
32) J. Barry, W. Rodejohann, H. Zhang:
Light Sterile Neutrinos: Models and Phenomenology
arXiv:1105.3911 [hep-ph], JHEP 1107, 091 (2011)
31) R.-Z. Yang, H. Zhang:
Minimal Seesaw Model with S(4) Flavor Symmetry
arXiv:1104.0380 [hep-ph], Phys. Lett. B 700, 316 (2011)
30) A. Dueck, W. Rodejohann, K. Zuber:
Neutrinoless Double Beta Decay, the Inverted Hierarchy and Precision Determination of theta(12)
arXiv:1103.4152 [hep-ph], Phys. Rev. D 83, 113010 (2011)
29) H. Hettmansperger, M. Lindner, W. Rodejohann:
Phenomenological Consequences of sub-leading Terms in See-Saw Formulas
arXiv:1102.3432 [hep-ph], JHEP 1104, 123 (2011)
28) W. Rodejohann, H. Zhang:
Extension of an Empirical Charged Lepton Mass Relation to the Neutrino Sector
arXiv:1101.5525 [hep-ph], Phys. Lett. B 698, 152 (2011)
27) M. Blennow, H. Melbeus, T. Ohlsson, H. Zhang:
Renormalization Group Running of the Neutrino Mass Operator in Extra Dimensions
arXiv:1101.2585 [hep-ph], JHEP 1104, 052 (2011)
26) J. Heeck, W. Rodejohann:
Neutrino Phenomenology of gauged L(mu) - L(tau): MINOS and beyond
arXiv:1012.2298 [hep-ph], AIP Conf. Proc. 1382, 144 (2011)
(talk given at NuFact 2010, the slides can be found here)
25) J. Barry, R.N. Mohapatra, W. Rodejohann:
Testing the Bimodal/Schizophrenic Neutrino Hypothesis in Neutrino-less Double Beta Decay and Neutrino Telescopes
arXiv:1012.1761 [hep-ph], Phys. Rev. D 83, 113012 (2011)
24) W. Rodejohann:
Neutrinoless Double Beta Decay in Particle Physics
arXiv:1011.4942 [hep-ph], Nucl. Phys. B Proc. Suppl. 229-232, 113 (2012)
(talk given at Neutrino 2010, the slides can be found here)
23) W. Rodejohann, H. Zhang:
Higgs triplets at like-sign linear colliders and neutrino mixing
arXiv:1011.3606 [hep-ph], Phys. Rev. D 83, 073005 (2011)
22) S. Ray, W. Rodejohann, M.A. Schmidt:
Lower Bounds on |U(e3)|
arXiv:1010.1206 [hep-ph], Phys. Rev. D 83, 033002 (2011)
21) J. Barry, W. Rodejohann:
Neutrino Mass Sum-rules in Flavor Symmetry Models
arXiv:1007.5217 [hep-ph], Nucl. Phys. B 842, 33 (2011)
20) J. Heeck, W. Rodejohann:
Gauged L(mu) - L(tau) and different Muon Neutrino and Anti-Neutrino Oscillations: MINOS and beyond
arXiv:1007.2655 [hep-ph], J. Phys. G 38, 085005 (2011)
19) A. Dueck, S.T. Petcov, W. Rodejohann:
On leptonic unitary Triangles and Boomerangs
arXiv:1006.0227 [hep-ph], Phys. Rev. D 82, 013005 (2010)
18) W. Rodejohann:
Inverse Neutrino-less Double Beta Decay Revisited: Neutrinos, Higgs Triplets and a Muon Collider
arXiv:1005.2854 [hep-ph], Phys. Rev. D 81, 114001 (2010)
17) C.H. Albright, A. Dueck, W. Rodejohann:
Possible Alternatives to Tri-bimaximal Mixing
arXiv:1004.2798 [hep-ph], Eur. Phys. J. C 70, 1099 (2010)
16) J. Barry, W. Rodejohann:
Deviations from tri-bimaximal Mixing due to VEV Misalignment in A(4) Models
arXiv:1003.2385 [hep-ph], Phys. Rev. D 81, 093002 (2010)
15) W. Rodejohann:
On Non-Unitary Lepton Mixing and Neutrino Mass Observables
arXiv:0912.3388 [hep-ph], Phys. Lett. B 684, 40 (2010)
14) W. Rodejohann:
Non-Unitary PMNS Matrix, Leptogenesis and Low Energy CP Violation
AIP Conf. Proc. 1222, 93 (2010)
(talk given at Nufact 09, the slides can be found here)
13) W. Rodejohann:
Scaling in the Neutrino Mass Matrix and the See-Saw Mechanism
Prog. Part. Nucl. Phys. 64, 321 (2010)
(talk given at Erice 2009, the slides can be found here)
12) S. Choubey, W. Rodejohann:
Flavor Composition of UHE Neutrinos at Source and at Neutrino Telescopes
arXiv:0909.1219 [hep-ph], Phys. Rev. D 80, 113006 (2009)
11) S. Goswami, S.T Petcov, S. Ray, W. Rodejohann:
Large U(e3) and Tri-bimaximal Mixing
arXiv:0907.2869 [hep-ph], Phys. Rev. D 80, 053013 (2009)
10) S. Goswami, S. Khan, W. Rodejohann:
Minimal Textures in Seesaw Mass Matrices and their low and high Energy Phenomenology
arXiv:0905.2739 [hep-ph], Phys. Lett. B 680, 255 (2009)
9) A.S. Joshipura, W. Rodejohann:
Scaling in the Neutrino Mass Matrix, mu-tau Symmetry and the See-Saw Mechanism
arXiv:0905.2126 [hep-ph], Phys. Lett. B 678, 276 (2009)
8) S. Choubey, W. Rodejohann, et al.:
Working group report: Neutrino physics
Pramana 72, 269-275 (2009)
7) W. Rodejohann:
Non-Unitary Lepton Mixing Matrix, Leptogenesis and Low Energy CP Violation
arXiv:0903.4590 [hep-ph], EPL 88, 51001 (2009)
6) A. Adulpravitchai, A. Blum, W. Rodejohann:
Golden Ratio Prediction for Solar Neutrino Mixing
arXiv:0903.0531 [hep-ph], New J. Phys. 11, 063026 (2009)
5) W. Rodejohann:
Deviations from tri-bimaximal mixing
arXiv:0901.0248 [hep-ph], Nucl. Phys. B Proc. Suppl. 188, 334 (2009)
(talk given at NOW2008, the slides can be found here)
4) W. Maneschg, A. Merle, W. Rodejohann:
Statistical Analysis of future Neutrino Mass Experiments including Neutrino-less Double Beta Decay
arXiv:0812.0479 [hep-ph], EPL 85, 51002 (2009)
3) C.H. Albright, W. Rodejohann:
Comparing Trimaximal Mixing and Its Variants with Deviations from Tri-bimaximal Mixing
arXiv:0812.0436 [hep-ph], Eur. Phys. J. C 62, 599 (2009)
2) W. Rodejohann:
Unified Parametrization for Quark and Lepton Mixing Angles
arXiv:0810.5239 [hep-ph], Phys. Lett. B 671, 267 (2009)
1) S. Choubey, W. Rodejohann, P. Roy:
Phenomenological Consequences of four zero Neutrino Yukawa Textures
arXiv:0807.4289 [hep-ph], Nucl. Phys. B 808, 272 (2009)

Theses

c
Ingolf Bischer:
Effective Neutrino Interactions: Origin and Phenomenology
(PhD thesis)
Miguel Campos:
Models for Dark Matter and Neutrino Physics
(PhD thesis)
Julian Heeck:
Neutrinos and Abelian Gauge Symmetries
(PhD thesis)
James Barry:
New physics models with sterile neutrinos at different energy scales
(PhD thesis)
Alexander Dueck:
Phenomenology of neutrinos and possible SO(10) origins of fermion masses and mixings
(PhD thesis)
Gustavo Adolfo Ardila Tafurth:
Stable Majoron Radiation in the Type 1 See-Saw Mechanism and Its Hypothetical Detection at the LHC
(Master thesis)
Gustavo Xavier Ponce Diaz:
A Phenomenological Analysis of the ΔEFT: Type-2 Seesaw Effective Field Theory
(Master thesis)
Carlos Jaramillo:
WIMPs and sterile neutrinos as dark matter
(Master thesis)
Philipp Gernandt:
The Neutrinoless Double Beta Decay at the LHC: Analyzing the Lambda-Diagram
(Master thesis)
Clara Miralles Vila:
iNaturalness and the Hierarchy Problem in the Type I and Type II See-saw Models
(Master thesis)
Juliana Stachurska:
Sterile Neutrinos in Extra Dimensions as Warm Dark Matter Candidates
(Master thesis)
Nina Memenga:
A neutrinophilic two Higgs doublet model with an A4 flavour symmetry for Dirac neutrinos
(Diploma thesis)
Julian Heeck:
Phenomenology of a gauged L(mu) - L(tau) Symmetry
(Diploma thesis)
Tom Wolf:
Majorana Neutrinos and their Implications
(Bachelor thesis)
Benedikt Schosser:
Capture of keV sterile neutrinos with KATRIN
(Bachelor thesis)
Theiss Heilker:
Phenomenologische Konsequenzen von Neutrinomassen anhand des Leptonen-Flavour-Zahl verletztende Zerfalls μ → 3e
(Bachelor thesis)
Michael Bleher:
Neutrinoloser Doppelbeta-Zerfall: Untersuchung einer Methode zur Auswahl eines Nuklearen Matrix-Elements
(Bachelor thesis)
Philipp Gernandt:
Neutrinos und Leptonflavorverletzung
(Bachelor thesis)
Mathis Kolb:
Flavour Symmetries and Models of Neutrino Mixing
(Bachelor thesis)
Andreas Reichegger:
Neutrinooszillationen: Formalismus und Resultate
(Bachelor thesis)
Alexander Liluashvili:
Sterile Neutrinos
(Bachelor thesis)
David Schönleber:
Theory of Neutrino Oscillations in the Framework of Quantum Mechanics
(Bachelor thesis)
Tim Wolf:
Neutrinomassen
(Bachelor thesis)
Beatriz Tapia Oregui:
Kosmologie und primordiale Nukleosynthese
(Bachelor thesis)
Ana Resetar:
Das Standardmodell der Teilchenphysik
(Bachelor thesis)