Publications
Peer-reviewed articles
A Survey of Neutrino Flavor Models and the Neutrinoless Double Beta Decay Funnel
Peter B. Denton and Julia Gehrlein,
arXiv: 2308.09737 [hep-ph].
Neutrino Constraints and the ATOMKI X17 Anomaly
Peter B. Denton and Julia Gehrlein,
arXiv: 2304.09877 [hep-ph]. Published in Phys. Rev. D \textbf{108} (2023) no.1, 015009.
Towards Resolving the Gallium Anomaly
Vedran Brdar, Julia Gehrlein, and Joachim Kopp,
arXiv: 2303.05528 [hep-ph]. Published in JHEP 05 (2023), 143.
Here comes the Sun: Solar Parameters in Long-Baseline Accelerator Neutrino Oscillations
Peter B. Denton and Julia Gehrlein,
arXiv: 2302.08513 [hep-ph]. Published in JHEP 06 (2023), 090.
Indirect Signals of Dark Matter Can Change Depending on Where You Look
Hooman Davoudiasl and Julia Gehrlein,
arXiv: 2208.04964 [hep-ph]. Published in Phys. Rev. D 107 (2023) no.2, 023002.
Is the \bar \theta parameter of QCD constant?
Hooman Davoudiasl, Julia Gehrlein, Robert Szafron
Published in Phys. Rev. Lett.. 129 (2022) no.16, 161802, arXiv: 2204.09694 [hep-ph].
New reactor data improves robustness of neutrino mass ordering determination
Peter B. Denton, Julia Gehrlein
Published in Phys. Rev. D 106 (2022), 015022, arXiv:2204.09060 [hep-ph].
New oscillation and scattering constraints on the tau row matrix elements without assuming unitarity
Peter B. Denton, Julia Gehrlein,
Published in JHEP 06 (2022), 135, arXiv: 2109.14575 [hep-ph].
Hooman Davoudiasl, Peter B. Denton, Julia Gehrlein,
Published in Phys. Rev. Lett. 128 (2022) no.8, 081101, arXiv: 2109.01678 [astro-ph.CO].
Julia Gehrlein, Seyda Ipek,
Published in JHEP 05 (2021), 020, arXiv: 2103.01251 [hep-ph].
Leptonic Sum Rules from Flavour Models with Modular Symmetries
Julia Gehrlein, Martin Spinrath,
Published in JHEP 03 (2021), 177, arXiv: 2012.04131 [hep-ph].
A Statistical Analysis of the COHERENT Data and Applications to New Physics
Peter B. Denton, Julia Gehrlein,
Published in JHEP 04 (2021), 266, arXiv: 2008.06062 [hep-ph].
CP -Violating Neutrino Nonstandard Interactions in Long-Baseline-Accelerator Data
Peter B. Denton, Julia Gehrlein, Rebekah Pestes,
Published in Phys. Rev. Lett. 126 (2021) no.5, 051801, arXiv: 2008.01110 [hep-ph].
Attractive scenario for light dark matter direct detection
Hooman Davoudiasl, Peter B. Denton, Julia Gehrlein,
Published in Phys. Rev. D 102 (2020) no.9, 091701, arXiv: 2007.04989 [hep-ph].
A testable hidden-sector model for Dark Matter and neutrino masses
Julia Gehrlein, Mathias Pierre,
Published in JHEP 02 (2020), 068, arXiv: 1912.06661 [hep-ph].
Very Light Asymmetric Dark Matter
Gonzalo Alonso-Alvarez, Julia Gehrlein, Joerg Jaeckel, Sebastian Schenk,
Published in JCAP 09 (2019), 003, arXiv: 1906.00969 [hep-ph].
Julia Gehrlein, Seyda Ipek, Patrick J. Fox,
Published in JHEP 03 (2019), 073, arXiv: 1901.09284 [hep-ph].
Natural and Dynamical Neutrino Mass Mechanism at the LHC
Julia Gehrlein, Dorival Goncalves, Pedro A. N. Machado, Yuber Perez-Gonzalez,
Published in Phys. Rev. D 98 (2018) no.3, 035045, arXiv: 1804.09184 [hep-ph].
IceCube bounds on sterile neutrinos above 10 eV
Mattias Blennow, Enrique Fernandez-Martinez, Julia Gehrlein, Josu Hernandez-Garcia, Jordi Salvado,
Published in Phys. Rev. D 98 (2018) no.3, 035045, arXiv: 1803.02362 [hep-ph].
Dark Matter and the elusive Z' in a dynamical Inverse Seesaw scenario
Valentina De Romeri, Enrique Fernandez-Martinez, Julia Gehrlein, Pedro A. N. Machado, Viviana Niro,
Published in JHEP 10 (2017), 169, arXiv: 1707.08606 [hep-ph].
Neutrino Mass Sum Rules and Symmetries of the Mass Matrix
Julia Gehrlein, Martin Spinrath,
Published in Eur. Phys. J. C 77 (2017) no.5, 281, arXiv: 1704.02371 [hep-ph].
Renormalisation Group Corrections to Neutrino Mixing Sum Rules
Julia Gehrlein, Serguey T. Petcov, Martin Spinrath, Arsenii Titov,
Published in JHEP 11 (2016), 146, arXiv: 1608.08409 [hep-ph].
Predictivity of Neutrino Mass Sum Rules
Julia Gehrlein, Alexander Merle, Martin Spinrath,
Published in Phys. Rev. D 94 (2016) no.9, 093003, arXiv: 1606.04965 [hep-ph].
Leptogenesis in an SU(5) x A5 Golden Ratio Flavour Model: Addendum
Julia Gehrlein, Serguey T. Pecov, Martin Spinrath, Xinyi Zhang,
Published as Addendum: Nucl.Phys.B 899, 617-630 (2015), arXiv: 1508.07930 [hep-ph].
Renormalisation Group Corrections to Neutrino Mass Sum Rules
Julia Gehrlein, Alexander Merle, Martin Spinrath,
Published in JHEP 09 (2015), 066, arXiv: 1506.06139 [hep-ph].
Leptogenesis in an SU(5) X A_5 Golden Ratio Flavour Model
Julia Gehrlein, Serguey T. Petcov, Martin Spinrath, Xinyi Zhang,
Published in Nucl. Phys. B 896 (2015), 311-329, arXiv: 1506.06139 [hep-ph].
An SU(5) X A_5 golden ratio flavour model
Julia Gehrlein, Jens P. Oppermann, Daniela Schaefer, Martin Spinrath,
Published in Nucl. Phys. B 890 (2014), 539-568, arXiv: 1410.2057 [hep-ph].
Snowmass21 whitepapers
Neutrinoless Double-Beta Decay: A Roadmap for Matching Theory to Experiment
Vincenzo Cirigliano, Julia Gehrlein (Editor), et al
arXiv:2203.12169 [hep-ph].
White Paper on Light Sterile Neutrino Searches and Related Phenomenology
arXiv: 2203.07323 [hep-ex].
Snowmass White Paper: Beyond the Standard Model effects on Neutrino Flavor
arXiv: 2203.10811 [hep-ph].
Coherent elastic neutrino-nucleus scattering: Terrestrial and astrophysical applications
M. Abdullah, H. Abele, D. Akimov, G. Angloher, D. Aristizabal Sierra, C. Augier, A. B. Balantekin, L. Balogh, P. S. Barbeau and L. Baudis, Julia Gehrlein et al,
arXiv:2203.07361 [hep-ph].
Testing neutrino flavor models
Julia Gehrlein (lead author), Serguey Petcov, Martin Spinrath and Arsenii Titov,
arXiv:2203.06219 [hep-ph].
Tau Neutrinos in the Next Decade: from GeV to EeV
R. M. Abraham, J. Alvarez-Muniz, C. A. Arguelles, A. Ariga, T. Ariga, A. Aurisano, D. Autiero, M. Bishai, N. Bostan, M. Bustamante, Julia Gehrlein (editor) et al,
arXiv:2203.05591 [hep-ph].
Snowmass21 Letters of interest
A comprehensive EFT global fit in the neutrino oscillation experiments
Low scale neutrino mass models
Lead author
Leptonic sum rules
Lead author
Neutrino non-standard interactions
Coherent Elastic neutrino-nucleus scattering: Theory and Experiment
Codes
Code to calculate the p value and confidence levels using a Feldmann-Cousins approach for standard and new physics scenarios for the CEvNS process