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Hi, I'm Henrique Rubira, a postdoc researcher at LMU/Cambridge working on the interface between particle physics and cosmology. Don't hesitate to get in touch!
Hi, I'm Henrique Rubira, a postdoc researcher at LMU/Cambridge working on the interface between particle physics and cosmology. Don't hesitate to get in touch!
Bio
Bio
I graduated in sciences from University of São Paulo in 2015. During my bachelor, I had the support of a FAPESP fellowship. I completed my masters in 2018 under the supervision of Prof. Lima, having the support of FAPESP working on effective field theories (EFTs) for large-scale structure. During my Master's, I also got another FAPESP grant for an internship at DESY, in Hamburg. During that time, I developed together with Dr. Rafael Porto and Dr. Konstandin a project extending the EFT approach to three-loop order. In 2018, I moved to DESY for the Ph.D. under the supervision of Dr. Konstandin, where I started working with gravitational waves from the early Universe. In 2021, I moved to the Technische Universität München (TUM) for a postdoc with Dr. Mathias Garny. Since 2024 I am a postdoc fellow at LMU/Cambridge.
Contact: rubirah1 at gmail
Trajectory
Trajectory
2024 - Today
LMU-Cambridge: Postdoc
2021 - 2024
Technical University of Munich: Postdoc
2018 - 2021
DESY: PhD
2011 - 2018
Universidade de São Paulo : Undergrad + Masters
Publications
Publications
My work lays on the interface between HEP and Astro communities, which use different conventions for the order in which the authors show up in the papers. Papers in blue use alphabetic order and all authors contributed similarly to the development of the project. Papers in orange use author contribution order. You can also check my Inspire page.
Hot New Early Dark Energy: Dark Radiation Matter Decoupling; Mathias Garny, Florian Niedermann, Henrique Rubira and Martin Sloth; 2508.03795
Rapid cosmological inference with the two-loop matter power spectrum; Thomas Bakx, Henrique Rubira, Elisa Chisari and Zvonimir Vlah; 2508.00611
Two-loop renormalization and running of galaxy bias; Thomas Bakx, Mathias Garny, Henrique Rubira and Zvonimir Vlah; 2507.13905
Multi-tracer beyond linear theory; Henrique Rubira and Francesco Conteddu; 2504.18245
Interacting dark sector within ETHOS: Cosmological constraints from SPT cluster abundance with DES and HST weak lensing data; Mazoun+; 2411.19911, Phys.Rev.D 111 (2025) 8, 083543
Gravitational waves from decaying sources in strong phase transitions; Chiara Caprini, Ryusuke Jinno, Thomas Konstandin, Alberto Roper Pol, Henrique Rubira, Isak Stromberg; 2409.03651, JHEP 07 (2025) 217
The renormalization group for large-scale structure: primordial non-Gaussianities; Charalampos Nikolis, Henrique Rubira, Fabian Schmidt; 2405.21002, JCAP 08 (2024) 017;
The Renormalization Group for Large-Scale Structure: Origin of Galaxy Stochasticity; Henrique Rubira, Fabian Schmidt; 2404.16929, JCAP 10 (2024) 092
Hot new early dark energy bridging cosmic gaps: Supercooled phase transition reconciles stepped dark radiation solutions to the Hubble tension with BBN; Mathias Garny, Florian Niedermann, Henrique Rubira, Martin Sloth; 2404.07256, Phys.Rev.D 110 (2024) 2, 023531
Probing interacting dark sector models with future weak lensing-informed galaxy cluster abundance constraints from SPT-3G and CMB-S4; Mazoun+; 2312.17622, Phys.Rev.D 109 (2024) 6, 063536
Galaxy bias renormalization group; Henrique Rubira, Fabian Schmidt; 2307.15031, JCAP 01 (2024) 031
The Effective Field Theory of Large-Scale Structure and Multi-tracer II: redshift space and realistic tracers; Thiago Mergulhão, Henrique Rubira, Rodrigo Voivodic; 2306.05474, JCAP 01 (2024) 008
Gravitational waves from defect-driven phase transitions: domain walls; Simone Blasi, Ryusuke Jinno, Thomas Konstandin, Henrique Rubira, Isak Stromberg; 2302.06952, JCAP 10 (2023) 051
Higgsless simulations of cosmological phase transitions and gravitational waves; Ryusuke Jinno, Thomas Konstandin, Henrique Rubira, Isak Stromberg; 2209.04369, JCAP 02 (2023) 011
Full-shape BOSS constraints on dark matter interacting with dark radiation and lifting the S8 tension; Henrique Rubira, Asmaa Mazoun, Mathias Garny; 2209.03974, JCAP 01 (2023) 034
Machine Learning Post-Minkowskian Integrals; Ryusuke Jinno, Gregor Kälin, Zhengwen Liu and Henrique Rubira; 2209.01091, JHEP 07 (2023) 181
Effect of density fluctuations on gravitational wave production in first-order phase transitions; Ryusuke Jinno, Thomas Konstandin, Henrique Rubira, Jorinde van de Vis; ; 2108.11947, JCAP 12 (2021) 12, 019
The effective field theory of large-scale structure and multi-tracer; Thiago Mergulhão, Henrique Rubira, Rodrigo Voivodic, L. Raul Abramo; 2108.11363, 04 (2022) 04, 021
The Effective Field Theory and Perturbative Analysis for Log-Density Fields; Henrique Rubira and Rodrigo Voivodic; 2011.12280, JCAP 03 (2021) 070
A hybrid simulation of gravitational wave production in first-order phase transitions; Ryusuke Jinno, Thomas Konstandin and Henrique Rubira; 2010.00971, JCAP 04 (2021) 014
The Halo Void (Dust) Model of Large Scale Structure; Rodrigo Voivodic, Henrique Rubira and Marcos Lima; 2003.06411, JCAP 10 (2020) 033
Deformation of the gravitational wave spectrum by density perturbations; Valerie Domcke, Ryusuke Jinno and Henrique Rubira; 2002.11083, JCAP 06 (2020) 046
The Schrödinger-Poisson method for Large-Scale Structure; Mathias Garny; Thomas Konstandin and Henrique Rubira; 1911.04505, JCAP 04 (2020) 003
The Effective Field Theory of Large Scale Structure at Three Loops; Thomas Konstandin, Rafael A. Porto and Henrique Rubira; 1906.00997, JCAP 11 (2019) 027
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