D. Lacour
Physics and Astronomy · Indiana University
Publications
538
Citations
13,836
Est. group size
—
Recurring co-author estimate
Active years
33
Publishing since 1994
D. Lacour works in experimental particle physics, focusing on the design, development, and testing of particle detectors used in large physics experiments. Their work includes silicon-based timing and calorimeter detectors for facilities such as the ATLAS experiment at CERN and proposed future colliders, as well as precision measurements of radioactive decay spectra.
Publication activity was modest and fairly steady from 2017 to 2020, followed by a gap with a single recorded publication in 2025.
Generated by claude-opus-4-8 from public bibliographic data · Jul 11, 2026
- TCT-based monitoring of LGAD radiation hardness for ATLAS-HGTD production
Nuclear Instruments and Methods in Physics Research Section A Accelerators Spectrometers Detectors and Associated Equipment · 2025
- Experimental study of 𝛽 spectra using Si detectors
EPJ Web of Conferences · 2020
- CATIA V5 Kinematics Création d'un Robot
2020
- International Large Detector: Interim Design Report
HAL (Le Centre pour la Communication Scientifique Directe) · 2020
- Beta spectrum measurements using a quasi-4π detection system based on Si detectors
Applied Radiation and Isotopes · 2019
- LPNHE scientific perspectives for the European Strategy for Particle Physics
arXiv (Cornell University) · 2019
- A High-Granularity Timing Detector for the Phase-II upgrade of the ATLAS calorimeter system: detector concept description and first beam test results
Journal of Instrumentation · 2018
- Measurement of absolute K X-ray emission intensities in the decay of 103m Rh
Applied Radiation and Isotopes · 2017
- Development of a Highly Granular Silicon-Tungsten ECAL for the ILD
Nuclear and Particle Physics Proceedings · 2016
- Applied Radiation and Isotopes×2
- Nuclear and Particle Physics Proceedings×1
- Journal of Instrumentation×1
- arXiv (Cornell University)×1
- EPJ Web of Conferences×1
This profile was generated automatically from public scholarly data (OpenAlex). Group size and activity levels are estimates derived from co-authorship patterns.
Last updated Jul 11, 2026.
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