Publications
Universality and complexity in natural languages: Mechanistic and emergent
Gemma De les Coves, Bernat Corominas-Murtra, Ricard Sole. Preprints: 202402.1330 (2024)
Beyond operator systems
Gemma De les Coves, Mirte van der Eyden, Tim Netzer, arXiv:2307.06851
Gemma De les Coves, Mirte van der Eyden, Tim Netzer, preprint: arxiv:2307.06851
A framework for universality in physics, computer science and beyond
Tomáš Gonda, Tobias Reinhart, Sebastian Stengele and Gemma De les Coves, arXiv:2307.06851
Many bounded versions of undecidable problems are NP-hard
Andreas Klingler, Mirte van der Eyden, Sebastian Stengele, Tobias Reinhart, and Gemma De las Cuevas. SciPost Phys. 14, 173 (2023). arXiv:2211.13532
Border Ranks of Positive and Invariant Tensor Decompositions: Applications to Correlations
Andreas Klingler, Tim Netzer, Gemma De les Coves. arXiv:2304.13478
The d-separation criterion in Categorical Probability
Tobias Fritz and Andreas Klingler. J. Mach. Learn. Res. 24 (46), 1-49 (2023). arXiv:2207.05740
Tobias Fritz and Andreas Klingler. arXiv:2207.05740
Magic squares: Latin, Semiclassical and Quantum
Gemma De las Cuevas, Tim Netzer and Inga Valentiner-Branth. J. Math. Phys. 64, 022201 (2023). arXiv 2209.10230
The grammar of the Ising model: A new complexity hierarchy
Tobias Reinhart and Gemma De las Cuevas. arXiv:2208.08301
Why Can the Brain (And Not a Computer) Make Sense of the Liar Paradox?
Patrick P. Fraser, Ricard Solé and Gemma De las Cuevas. Frontiers in Ecology and Evolution 9, 802300 (2021). Preprint 202111.0524
Halos and undecidability of tensor stable positivity
Mirte van der Eyden, Tim Netzer and Gemma De las Cuevas. J. Phys. A 55, 264006 (2022)
Polynomial decompositions with invariance and positivity inspired by tensors.
Gemma De las Cuevas, Andreas Klingler, Tim Netzer. Arxiv:2109.06680
Approximate Pythagoras Numbers.
Paria Abbasi, Sander Gribling, Andreas Klingler, Tim Netzer. ArXiv:2109.04772
Approximate tensor decompositions: disappearance of many separations.
Gemma De las Cuevas, Andreas Klingler and Tim Netzer. J. Math. Phys. 62, 093502 (2021). (Editor’s pick). arXiv:2004.10219
Gemma De las Cuevas, Andreas Klingler and Tim Netzer. arXiv:2004.10219
Quantum Information Theory and Free Semialgebraic Geometry: One Wonderland Through Two Looking Glasses.
Gemma De Las Cuevas and Tim Netzer. IMN Nr. 246 (2021). ArXiv:2102.04240
Gemma De Las Cuevas and Tim Netzer. Arxiv:2102.04240
Approximate completely positive semidefinite rank.
Paria Abbasi, Andreas Klingler, Tim Netzer. arXiv:2012.06471
Separability for mixed states with operator Schmidt rank two.
Gemma De las Cuevas, Tom Drescher and Tim Netzer. Quantum 3, 203 (2019). arXiv:1903.05373
Gemma De las Cuevas, Tom Drescher and Tim Netzer. Quantum 3, 203 (2019). arXiv:1903.05373
Quantum magic squares: dilations and their limitations.
Gemma De las Cuevas, Tom Drescher and Tim Netzer. J. Math. Phys. 61, 111704 (2020). (Editor's pick). arXiv:1912.07332
Gemma De las Cuevas, Tom Drescher and Tim Netzer. J. Math. Phys. 61, 111704 (2020). (Editor's pick). arXiv:1912.07332
Classical spin Hamiltonians are context-sensitive language
Sebastian Stengele, David Drexel and Gemma De las Cuevas.
Proc. R. Soc. A 479, 20220553 (2023)
arXiv:2006.03529
Cats climb entails mammals move: preserving hyponymy in compositional distributional semantics.
Gemma De las Cuevas, Andreas Klingler, Martha Lewis and Tim Netzer. Journal of Cognitive Science 22, 311 (2021). arXiv:2005.14134
Gemma De las Cuevas, Andreas Klingler, Martha Lewis and Tim Netzer. arXiv:2005.14134
Generalised ansatz for continuous Matrix Product States.
Maria Balanzó-Juandó and Gemma De las Cuevas. Phys. Rev. A 101, 052312 (2020) (Editor's suggestion). arXiv:1908.09761
Maria Balanzó-Juandó and Gemma De las Cuevas. Phys. Rev. A 101, 052312 (2020) (Editor's suggestion). arXiv:1908.09761