Contact
Name
Maxime Lagrange

Position
PhD student

Email
maxime.lagrange@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

Office
E.147

UCL member card
http://www.uclouvain.be/maxime.lagrange
Projects
Research directions:
Data analysis in HEP, astroparticle and GW experiments
Detector commissioning, operation and data processing
Research and development of new detectors

Experiments and collaborations:
MURAVES

Active projects
Imaging with cosmic-ray muons
Abhishek Chauhan, Eduardo Cortina Gil, Pavel Demin, Khalil El Achi, Andrea Giammanco, Sumaira Ikram, Maxime Lagrange, Nicolas Szilasi, Ayman Youssef, Zahraa Zaher

The general goal of this project is to develop muon-based radiography or tomography (“muography”), an innovative multidisciplinary approach to study large-scale natural or man-made structures, establishing a strong synergy between particle physics and other disciplines, such as geology and archaeology.
Muography is an imaging technique that relies on the measurement of the absorption of muons produced by the interactions of cosmic rays with the atmosphere.
Applications span from geophysics (the study of the interior of mountains and the remote quasi-online monitoring of active volcanoes) to archaeology and mining.

We are using the local facilities at CP3 for the development of high-resolution portable detectors based on Resistive Plate Chambers.

We also participate to the MURAVES collaboration through simulations (including the coordination of the Monte Carlo group), data-analysis developments (an example of the latter is the implementation and in-situ calibration of time-of-flight capabilities), and development of a new database.

We are part of the H2020-RIA project SilentBorder, which aims at developing new muon scanners at border controls. Our role in this project is to develop a parametric simulation and a ML-based detector optimization procedure.

We are also part of the H2020-MSCA-RISE network INTENSE where we coordinate the Muography work package, which brings together particle physicists, geophysicists, archaeologists, civil engineers and private companies for the development and exploitation of this imaging method.

External collaborators: UGent; Kyushu University; INTENSE Research & Innovation Staff Exchange network (Japan, Switzerland, Italy, France, Hungary); SilentBorder network (Estonia, Germany, Finland, Turkey, Italy, UK); MURAVES Collaboration including INFN, INGV, universities of Florence and Federico II Naples, UGent, VUB.
Machine-learning Optimized Design of Experiments
Andrea Giammanco, Maxime Lagrange, Zahraa Zaher

We are among the founders of MODE (Machine-learning Optimized Design of Experiments, https://mode-collaboration.github.io/), a multi-disciplinary consortium of European and American physicists and computer scientists who target the use of differentiable programming in design optimization of detectors for particle physics applications, extending from fundamental research at accelerators, in space, and in nuclear physics and neutrino facilities, to industrial applications employing the technology of radiation detection.

We aim to develop a modular, customizable, and scalable, fully differentiable pipeline for the end-to-end optimization of articulated objective functions that model in full the true goals of experimental particle physics endeavours, to ensure optimal detector performance, analysis potential, and cost-effectiveness.
The main goal of our activities is to develop an architecture that can be adapted to the above use cases but will also be customizable to any other experimental endeavour employing particle detection at its core. We welcome suggestions, as well as interest in joining our effort, by researchers focusing on use cases for which this technology can be of benefit.

External collaborators: University of Padova, INFN, Université Clermont Auvergne, Higher School of Economics of Moscow, CERN, University of Oxford, New York University, ULiege.
Publications in IRMP
All my publications on Inspire

Number of publications as IRMP member: 6
Last 5 publications

2024

IRMP-CP3-24-14: Cosmic rays for imaging cultural heritage objects
Andrea Giammanco, Marwa Al Moussawi, Matthieu Boone, Tim De Kock, Judy De Roy, Sam Huysmans, Vishal Kumar, Maxime Lagrange, Michael Tytgat

[Abstract] [PDF]
Submitted to a special issue of iScience about "Cosmic-Ray Muography and Applications"
Refereed paper. May 20.
IRMP-CP3-24-08: A Simulation of a Cosmic Ray Tomography Scanner for Trucks and Shipping Containers
Anzori Georgadze, Andrea Giammanco, Vitaly Kudryavtsev, Maxime Lagrange, Cenk Turkoglu

[Full text]
Proceedings of the International Workshop on Cosmic-Ray Muography (Muography2023), Naples, Italy
Refereed paper. Contribution to proceedings. March 11.

2023

IRMP-CP3-23-51: TomOpt: Differential optimisation for task- and constraint-aware design of particle detectors in the context of muon tomography
Strong, Giles C. and others

[Abstract] [PDF] [Journal] [Dial] [Full text]
Giles C Strong et al., Mach. Learn.: Sci. Technol. 5 (2024) 035002
Refereed paper. September 26.
IRMP-CP3-23-50: Muons for cultural heritage
Moussawi, Marwa and Giammanco, Andrea and Kumar, Vishal and Lagrange, Maxime

[Abstract] [PDF] [Local file] [Full text]
Published reference: PoS(Muon4Future2023)029.
Contribution to proceedings. September 15.
IRMP-CP3-23-16: Cosmic-Ray Tomography for Border Security
Sarah Barnes, Anzori Georgadze, Andrea Giammanco, Madis Kiisk, Vitaly A. Kudryavtsev, Maxime Lagrange and Olin Lyod Pinto

[Full text]
Published in Instruments 2023, 7(1), 13
Invited review paper for the special issue "Muography, Applications in Cosmic-Ray Muon Imaging"
Refereed paper. March 20.

More publications