| Effective description of general extensions of the Standard Model: the complete tree-level dictionary J de Blas, JC Criado, M Perez-Victoria, J Santiago Journal of High Energy Physics 2018 (3), 1-63, 2018 | 284 | 2018 |
| Modular invariance faces precision neutrino data JC Criado, F Feruglio SciPost Physics 5 (5), 042, 2018 | 180 | 2018 |
| Modular invariant models of lepton masses at levels 4 and 5 JC Criado, F Feruglio, SJD King Journal of High Energy Physics 2020 (2), 1-24, 2020 | 109 | 2020 |
| Field redefinitions in effective theories at higher orders JC Criado, M Perez-Victoria Journal of High Energy Physics 2019 (3), 1-41, 2019 | 78 | 2019 |
| MatchingTools: a Python library for symbolic effective field theory calculations JC Criado Computer Physics Communications 227, 42-50, 2018 | 76 | 2018 |
| BasisGen: automatic generation of operator bases JC Criado The European Physical Journal C 79, 1-6, 2019 | 58 | 2019 |
| Modular invariance faces precision neutrino data, SciPost Phys JC Criado, F Feruglio arXiv preprint arXiv:1807.01125, 1807 | 51 | 1807 |
| Implications of Milky Way substructures for the nature of dark matter M Benito, JC Criado, G Hütsi, M Raidal, H Veermäe Physical Review D 101 (10), 103023, 2020 | 40 | 2020 |
| A complete effective field theory for dark matter JC Criado, A Djouadi, M Perez-Victoria, J Santiago Journal of High Energy Physics 2021 (7), 1-38, 2021 | 28 | 2021 |
| Dark matter of any spin: An effective field theory and applications JC Criado, N Koivunen, M Raidal, H Veermäe Physical Review D 102 (12), 125031, 2020 | 27 | 2020 |
| Completely quantum neural networks S Abel, JC Criado, M Spannowsky Physical Review A 106 (2), 022601, 2022 | 23 | 2022 |
| Vector-like quarks with non-renormalizable interactions JC Criado, M Perez-Victoria Journal of High Energy Physics 2020 (1), 1-44, 2020 | 22 | 2020 |
| BSM benchmarks for effective field theories in Higgs and electroweak physics D Marzocca, F Riva, J Criado, S Dawson, J de Blas, B Henning, D Liu, ... arXiv preprint arXiv:2009.01249, 2020 | 16 | 2020 |
| Computing Tools for the SMEFT J Aebischer, M Fael, A Lenz, M Spannowsky, J Virto, I Brivio, JC Criado, ... arXiv preprint arXiv:1910.11003, 2019 | 14 | 2019 |
| Higher-spin particles at high-energy colliders JC Criado, A Djouadi, N Koivunen, M Raidal, H Veermäe Journal of High Energy Physics 2021 (5), 1-40, 2021 | 11 | 2021 |
| Elvet--a neural network-based differential equation and variational problem solver JY Araz, JC Criado, M Spannowsky arXiv preprint arXiv:2103.14575, 2021 | 11 | 2021 |
| LHC EFT WG note: precision matching of microscopic physics to the Standard Model Effective Field Theory (SMEFT) S Dawson, A Greljo, K Lohwasser, J Aebischer, SD Bakshi, A Carmona, ... arXiv preprint arXiv:2212.02905, 2022 | 10 | 2022 |
| Confronting spin-3/2 and other new fermions with the muon g-2 measurement JC Criado, A Djouadi, N Koivunen, K Müürsepp, M Raidal, H Veermäe Physics Letters B 820, 136491, 2021 | 10 | 2021 |
| Modular Invariance Faces Precision Neutrino Data, SciPost Phys. 5 (2018), no. 5 042 JC Criado, F Feruglio arXiv preprint arXiv:1807.01125, 0 | 10 | |
| The emergence of electroweak skyrmions through Higgs bosons JC Criado, VV Khoze, M Spannowsky Journal of High Energy Physics 2021 (3), 1-23, 2021 | 9 | 2021 |
