Axion-matter coupling in multiferroics.
Heinrik Roising, Benjo Fraser, Sinéad M. Griffin, Sumanta Bandyopadhyay, Aditi Mahabir, Sang-Wook Cheong, and Alexander Balatsky
arXiv (2021)

iFermi: A Fermi surface analysis and manipulation tool.
Alex M Ganose*, Amy Searle*, Anubhav Jain, and Sinéad M Griffin
Journal of Open Source Software, 6(59), 3089 (2021)

Localization and reduction of superconducting quantum coherent circuit losses.
M. Virginia P. Alto, Archan Banerjee, Cassidy Berk, Ahmed Hajr, Adam Schwartzberg, Chenyu Song, Mohammed Al Ghadeer, Shaul Aloni, Michael J. Elowson, John Mark Kreikbaum, Ed K. Wong, Sinéad M. Griffin, Saleem Rao, Alexander Weber-Bargioni, Andrew Minor, David I. Santiago, Stefano Cabrini, Irfan Siddiqi and D. Frank Ogletree. 
arXiv (2020)

A three-dimensional reconstruction algorithm for scanning transmission electron microscopy data.
Hamish G Brown, Philipp M Pelz, Shang-Lin Hsu, Zimeng Zhang, Ramamoorthy Ramesh, Katherine Inzani, Evan Sheridan, Sinéad M Griffin, Scott D Findlay, Les J. Allen, Mary C. Scott, Colin Ophus, and Jim Ciston
arXiv (2020)

Generalized Spontaneous Symmetry Breaking.
Sinéad M Griffin and Michele Schiavina
arXiv (2020)

Structural disorder-driven topological phase transitions in noncentrosymmetric BiTeI.
Paul Corbae, Frances Hellmann, and Sinéad M Griffin
arXiv (2020)

Prospects for dark matter detection in SiC crystals.
Sinéad M Griffin, Yonit Hochberg, Katherine Inzani, Noah Kurinsky, Tongyan Lin, and To Chin Yu
Phys. Rev. D (2021) – In Press. arXiv

Prediction of Tunable Spin-Orbit Gapped Materials for Dark Matter Detection.
Katherine Inzani, Alireza Fanghaninia, and Sinéad M Griffin
Phys. Rev. Research 3, 013069 (2021). arXiv

Coherent electric field manipulation of Fe3+ spins in PbTiO3.
Weichuan Huang*, Sujit Das*, Katherine Inzani*, Ruchira Chatterjee, Evan Sheridan, Valentin V. Laguta, Sinéad M Griffin, Arzhang Ardavan, and Ramamoorthy Ramesh
Science Advances 7, no. 10, eabf8103 (2021).

Layer-Dependent Topological Phase in a Two-Dimensional Quasicrystal.
Jeffrey D. Cain, Amin Azizi, Matthias Conrad, Sinéad M Griffin, and Alex Zettl
Proceedings of the National Academy of Sciences 117, 26135 (2020). arXiv

Beyond Expectation – Advanced Materials Design, Synthesis, and Processing to Enable Novel Ferroelectric Properties and Applications.
Jieun Kim, Eduardo Lupi, David Pesquera, Megha Acharya, Wenbo Zhao, Gaberial A. P. Velarde, Sinéad M. Griffin and Lane W. Martin
MRS Advances, 1-20 (2020) UC Open Access

High-throughput search for magnetic and topological order in transition metal oxides.
Nathan C Frey, Matthew K Horton, Jason M Munro, Sinéad M Griffin, Kristin A Persson, and Vivek B Shenoy
Science Advances 6, no. 50 eabd1076 (2020). arXiv

Do indications of crystallographic Higgs and Goldstone dynamics manifest in the hexagonal manganites?
Quintin N Meier, Adrien Stucky, Jeremie Teyssier, Sinéad M Griffin, Dirk van der Marel, and Nicola A Spaldin
Phys. Rev. B, 102, 014102 (2020) – Editor’s Suggestion. arXiv

Multi-Channel Direct Detection of Light Dark Matter: Theoretical Framework.
Tanner Trickle, Zhengkang Zhang, Kathryn M. Zurek, Katherine Inzani, and Sinéad M Griffin
Journal of High Energy Physics, 2020, 26 (2020). arXiv

Multi-Channel Direct Detection of Light Dark Matter: Target Comparison.
Sinéad M Griffin, Katherine Inzani, Tanner Trickle, Zhengkang Zhang, and Kathryn M. Zurek
Phys. Rev. D, 101, 055004 (2020) – Editor’s Suggestion. arXiv

Signatures of possible surface states in TaAs.
Nityan L Nair, Marie-Eve Boulanger, Francis Laliberté, Sinéad M Griffin, Sanyum Channa, Anaelle Legros, Wojciech Tabis, Cyril Proust, Jeffrey B Neaton, Louis Taillefer, and James G Analytis
Phys. Rev. B 102 (7) 075402 (2020). arXiv

Evidence for topological surface states in amorphous Bi2Se3.
Paul Corbae, Samuel Ciocys, Daniel Varjas, Steven Zeltmann, Conrad H. Stansbury, Manel Molina-Ruiz, Sinéad M Griffin, Chris Jozwiak, Zhanghui Che, Lin-Wang Wang, Andrew M. Minor, Adolfo G. Grushin, Alessandra Lanzara, and Frances Hellman
arXiv (2019)

Topological phases in elemental lithium under pressure.
Stephanie Mack, Sinéad M Griffin, and Jeffrey B Neaton
Proceedings of the National Academy of Sciences, 116, 9197 (2019). arXiv.

Highly Dispersive Thin Film C60 Band Structure.
Drew W Latzke, Claudia Ojeda-Aristizabel, Sinéad M Griffin, JD Denlinger, Jeffrey B Neaton, Alex Zettl, and Alessandra Lanzara
Phys. Rev. B, 99, 045425 (2019). arXiv

Direct detection of light dark matter with optical phonons.
Sinéad M Griffin, Simon Knapen, Tongyan Lin and Kathryn M Zurek
Phys. Rev. D, 98, 115024 (2018). arXiv

Detection of sub-MeV Dark Matter with Three-Dimensional Dirac Materials.
Yonit Hochberg, Yonatan Kahn, Mariangela Lisanti, Kathryn M Zurek, Adolfo G Grushin, Roni Ilan, Sinéad M Griffin, Zhen-Mei Liu, Sophie F Weber, and Jeffrey B Neaton
Phys. Rev. D, 97, 015004 (2018). arXiv

Goldstone-like phonon modes in a (111)-strained perovskite.
Astrid Marthinsen, Sinéad M Griffin, Matthieu Moreau, Tor Grande, Thomas Tybell, and Sverre M Selbach
Phys. Rev. Mat., 2, 014404 (2018). arXiv.

Thermodynamic signatures of Dirac electrons across a possible topological transition in ZrTe5.
Nityan L Nair, Philipp T Dumitrescu, Sanyum Channa, Sinéad M Griffin, Jeffrey B Neaton, Andrew C Potter and James G Analytis
Phys. Rev. B, 97, 041111(R) (2018). arXiv

Observation of two-dimensional Fermi surface and Dirac dispersion in the new material YbMnSb2.
Robert G Kealhofer, Sooyoung Jang, Sinéad M Griffin, Caolan John, Katherine A Benavides, Spencer Doyle, Toni Helm, Philip JW Moll, Jeffrey B Neaton, Julia Y Chan, JD Denlinger, and James G Analytis
Phys. Rev. B, 97, 045149 (2018). arXiv

Prediction of a new class of half-metallic ferromagnets from first principles.
Sinéad M Griffin and Jeffrey B Neaton
Phys. Rev. Mat., 1, 044401 (2017). arXiv

Global formation of topological defects in the multiferroic hexagonal manganites.
Quintin N Meier, Martin Lilienblum, Sinéad M Griffin, Kazimierz Conder, Ekaterina Pomjakushina, Zewu Yan, Edith Bourret, Dennis Meier, Frank Lichtenberg, Ekhard KH Salje, Nicola A Spaldin, Manfred Fiebig, and Andres Cano
Phys. Rev. X, 7, 041014 (2017).

Defect Chemistry as a Crystal Structure Design Parameter: Intrinsic Point Defects and Ga Substitution in InMnO3.
Sinéad M Griffin, Mari Reidulff, Sverre M Selbach, and Nicola A Spaldin
Chemistry of Materials, 29 (6), 2425 (2017). UC Open Access

On the relationship between topological and geometric defects.
Sinéad M Griffin and Nicola A Spaldin
J. Phys: Cond. Mat 29, 34 (2017). arXiv

A density functional theory study of the influence of exchange-correlation functionals on the properties of FeAs.
Sinéad M Griffin and Nicola A Spaldin
J. Phys: Cond. Mat. 29, 21 (2017). arXiv

A Bespoke Single-Band Hubbard Model Material.
Sinéad M Griffin, Peter Staar, Thomas C Schulthess, Matthias Troyer, and Nicola A Spaldin
Phys. Rev. B 93 075115 (2016). arXiv

Duality of Topological Defects in Hexagonal Manganites.
Fei-Ting Huang, Xueyun Wang, Sinéad M Griffin, Yu Kumagai, Oliver Gindele, Ming-Wen Chu, Yoichi Horibe, Nicola A Spaldin, and Sang-Wook Cheong
Phys. Rev. Lett. 113, 267602 (2014)

Scaling Behavior and Beyond Equilibrium in the Hexagonal Manganites.
Sinéad M Griffin, Martin Lilienblum, Kris T Delaney, Yu Kumagai, Manfred Fiebig, and Nicola A Spaldin
Phys. Rev. X 2, 041022 (2012)

Ab initio investigation of FeAs/GaAs heterostructures for potential spintronic and superconducting applications.
Sinéad M Griffin and Nicola A Spaldin.
Phys. Rev. B 85, 155126 (2012) arXiv