Contact
Name
Marco Drewes

Position
Academic staff

Email
marco.drewes@uclouvain.be

Address
Centre for Cosmology, Particle Physics and Phenomenology - CP3
Université catholique de Louvain
2, Chemin du Cyclotron - Box L7.01.05
B-1348 Louvain-la-Neuve
Belgium

Phone
+32 10 473232

Office
E.248

Personal homepage
https://orcid.org/0000-0003-0521-7586

UCL member card
http://www.uclouvain.be/marco.drewes
People responsibilities
Postdocs
Wenyuan Ai (member since October 2019)
My research focuses on phase transitions as well as its applications in the early universe and electroweak vacuum metastability. I am also interested in nonequilibrium quantum field theory and black hole physics.
Richard Ruiz (Other - Ressources diverses) (member since October 2018)
I am a high energy physicist and collider theorist. My primary research focuses on understanding the origin of tiny, nonzero neutrino masses and tests of neutrino mass models (Seesaw models) at collider experiments, such as the Large Hadron Collider. This includes extended gauge sectors (LR-Symmetric, GUT models), scalar sectors (SU(2)L doublets and triplets), and fermionic sectors (SU(2)L singlets and triplets). I have a particular interest in collider signatures involving initial-state electroweak vector bosons (vector boson fusion/scattering) and the impact of (resummed) QCD corrections on (new physics) collider processes. This includes resummation in the context of perturbative QCD and SCET.

PhD students
Gilles Buldgen (FNRS) (member since January 2018)

Master students

Former members
Research statement
Many properties of the cosmos that we observe today can be understood as the result of quantum processes in the hot and dense plasma that filled the universe in the first moments after the "big bang". This allows cosmologists to understand the history of the observable universe in terms of elementary particles and the fundamental interactions between them. On the other hand, the extreme conditions in the primordial plasma allow particle physicists to test their ideas in an environment that cannot be created in the laboratory. With our research, we exploit this mutual benefit to learn about both, the fundamental laws of nature and how they shaped the cosmos that we live in.
Projects
Research directions:
Cosmology and General Relativity
Theories of the fundamental interactions
Phenomenology of elementary particles

Active projects
Neutrino Masses as a Key to New Physics
Marco Drewes, Jan Hajer

We study the perspectives to probe the origin of neutrino mass with existing or near future experiments. The focus lies on low scale seesaw scenarios involving heavy right handed neutrinos. We are also interested in cosmological implications, such as leptogenesis or connections to Dark Matter.
Neutrinos in the Early Universe
Gilles Buldgen, Marco Drewes

We study the production and interactions of neutrinos in the primordial plasma from first principles of quantum field theory. This includes Standard Model computations such as QED corrections to Neff as well as constraints on new neutrinos species from cosmology and astrophysics.
New Paths to Hidden Sectors
Chiara Arina, Marco Drewes, Andrea Giammanco, Jan Hajer

We study the perspectives to search for new long lived particles with existing accelerator facilities. This includes searches for non-standard signatures at the LHC main detectors, fixed target experiments and searches in heavy ion collisions.
Scalar Fields in the Early Universe
Wenyuan Ai, Gilles Buldgen, Marco Drewes

We study the nonequilibrium dynamics of scalar fields in the early universe in the framework of the Schwinger-Keldysh formalism. We are interested in several applications, including inflation, reheating, Dark Matter production and the fate of the Higgs field in the early universe.
Testable Baryogenesis
Marco Drewes

We study the perspectives to probe the origin of baryonic matter in the observable universe with laboratory experiments. Currently the focus lies on low scale leptogenesis scenarios. A key element of our approach lies in the description of CP violating nonequilibrium processes in the early universe from first principles of nonequilibrium quantum field theory.
Publications in CP3
All my publications on Inspire

Number of publications as CP3 member: 32 Download BibTeX

Last 5 publications

2020

CP3-20-45: MeV-scale Seesaw and Leptogenesis
Domcke, Valerie and Drewes, Marco and Hufnagel, Marco and Lucente, Michele

[Abstract] [PDF]
Refereed paper. September 25.
CP3-20-24: Schwinger effect and false vacuum decay as quantum-mechanical tunneling of a relativistic particle
Wen-Yuan Ai and Marco Drewes

[Abstract] [PDF]
Refereed paper. May 26.

2019

CP3-19-63: Kann es echte Freiheit geben? Ein Kommentar eines Naturwissenschaftlers
Marco Drewes

[Full text]
Outreach article in the local German newspaper "Politik und Gesellschaft" (ISSN 1862-0213).
December 31.
CP3-19-54: General Markovian Equation for Scalar Fields in a Slowly Evolving Background
Buldgen, Gilles and Drewes, Marco and Kang, Jin U. and Mun, Ui Ri

[Abstract] [PDF]
Refereed paper. December 6.
CP3-19-51: Towards a precision calculation of the effective number of neutrinos $N_{\rm eff}$ in the Standard Model I: The QED equation of state
Bennett, Jack J. and Buldgen, Gilles and Drewes, Marco and Wong, Yvonne Y. Y.

[Abstract] [PDF] [Journal] [Dial]
25 pages, plus appendices and 8 figures
Refereed paper. November 19.

More publications