Rémi Helleboid

I’m a PhD student in nanoelectronics with the C2N (Université Paris-Saclay & CNRS), the CEA LETI and STMicroelectronics.
I’m part of the COMputational nanoelectronICS (COMICS) research group of the C2N. My work is focused on the modeling of Single-Photon Avalanche Diodes (SPAD). I’m developing simulation codes to achieve accurate simulations of the high-field electronic transport and electron-hole avalanche process in Silicon and other semiconductors.

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Interests
  • Computational Physics
  • Semiconductor
  • Electronic device
  • Single-Photon Avalanche Diodes
  • Monte Carlo electronic transport simulation
Education

  • PhD, 2021 - 2024

    C2N & CEA & STMicroelectronics

  • Master Degree in Mathematics, 2020

    Sorbonne Université, Paris

Skills

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Solid-State Physics
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C++
Python
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HPC - MPI & OpenMP
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Electron devices
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Applied Mathematics

Publications

D. Rideau, Rémi Helleboid, G. Mugny, R. A. Bianchi, J. R. Manouvrier, I. Nicholson, J. Grebot, E. Lacombe, A. Lopez, D. Golanski, B. Mamdy, B. Rae, S. Pellegrini, M. Agnew, W. Uhring, S. Rink, H. Wehbe Alause (2023). Multiscale SPAD modeling: from Monte Carlo to SPICE simulations. Advanced Photon Counting Techniques XVII.

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Rémi Helleboid, Jérôme Saint-Martin, Marco Pala, Philippe Dollfus, Denis Rideau, Gabriel Mugny, Isobel Nicholson, Jérémy Grebot (2023). Automatic optimization of doping profile for high performance Single-Photon Avalanche Diodes. International Workshop on Computational Nanotechnology - IWCN 2023.

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Rémi Helleboid, Denis Rideau, Isobel Nicholson, Jérémy Grebot, Bastien Mamdy, Gabriel Mugny, Marie Basset, Megan Agnew, Dominique Golanski, Sara Pellegrini, J. Saint-Martin, Marco Pala, Philippe Dollfus (2022). A Fokker-Planck-based Monte Carlo method for electronic transport and avalanche simulation in single-photon avalanche diodes. Journal of Physics D: Applied Physics.

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Dorian Saint-Pierre, Raphaël Clerc, Rémi Helleboid, Denis Rideau (2022). On the convergence of the recurrence solution of McIntyre's local and non-local avalanche triggering probability equations for SPAD compact models. ESSDERC 2022 - IEEE 52nd European Solid-State Device Research Conference (ESSDERC).

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Mathieu Sicre, Megan Agnew, Christel Buj, Caroline Coutier, Dominique Golanski, Rémi Helleboid, Bastien Mamdy, Isobel Nicholson, Sara Pellegrini, Denis Rideau, David Roy, Francis Calmon (2022). Statistical measurements and Monte-Carlo simulations of DCR in SPADs. ESSCIRC 2022- IEEE 48th European Solid State Circuits Conference (ESSCIRC).

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P. Dollfus, J. Saint-Martin, T. Cazimajou, Rémi Helleboid, A. Pilotto, D. Rideau, A. Bournel, M. Pala (2022). Avalanche breakdown and quenching in Ge SPAD using 3D Monte Carlo simulation. Solid-State Electronics.

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Rémi Helleboid, Denis Rideau, Jérémy Grebot, Isobel Nicholson, Norbert Moussy, Olivier Saxod, Marie Basset, Antonin Zimmer, Bastien Mamdy, Dominique Golanski, Megan Agnew, Sara Pellegrini, Mathieu Sicre, Christel Buj, Guillaume Marchand, Jérôme Saint-Martin, Marco Pala, Philippe Dollfus (2022). Comprehensive Modeling and Characterization of Photon Detection Efficiency and Jitter Tail in Advanced SPAD Devices. IEEE Journal of the Electron Devices Society.

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Rémi Helleboid, Denis Rideau, Jérémy Grebot, Isobel Nicholson, Norbert Moussy, Olivier Saxod, Jérôme Saint-Martin, Marco Pala, Philippe Dollfus (2022). Modeling of SPAD avalanche breakdown probability and jitter tail with field lines. Solid-State Electronics.

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Rémi Helleboid, Denis Rideau, Isobel Nicholson, Norbert Moussy, Olivier Saxod, Marie Basset, Jérémy Grebot, Antonin Zimmerman, Bastien Mamdy, Dominique Golanski, Megan Agnew, Sara Pellegrini, Mathieu Sicre (2021). Comprehensive modeling and characterization of Photon Detection Efficiency and Jitter in advanced SPAD devices. ESSDERC 2021 - IEEE 51st European Solid-State Device Research Conference (ESSDERC).

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Mathieu Sicre, Megan Agnew, Christel Buj, Jean Coignus, Dominique Golanski, Rémi Helleboid, Bastien Mamdy, Isobel Nicholson, Sara Pellegrini, Denis Rideau, David Roy, Francis Calmon (2021). Dark Count Rate in Single-Photon Avalanche Diodes: Characterization and Modeling study. ESSDERC 2021 - IEEE 51st European Solid-State Device Research Conference (ESSDERC).

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Jérémy Grebot, Gabriel Mugny, Rémi Helleboid, Isobel Nicholson, Francesco Abbate, Denis Rideau, Hélène Wehbe-Alause, Claire Scheid, Stéphane Lanteri (2021). Semi-Empirical model for optical properties of $textSi_1-xtextGe_x$ alloys accounting for strain and temperature. ESSDERC 2021 - IEEE 51st European Solid-State Device Research Conference (ESSDERC).

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D. Rideau, Y. Oussaiti, J. Grebot, Rémi Helleboid, A. Lopez, G. Mugny, E. Bourreau, D. Golanski, B. Mamdy, H. Wehbe Alause, I. Nicholson, S. Pellegrini, C.E. Vlimant, M. Agnew, T. Cazimajou, M. Pala, J. Saint-Martin, P. Dollfus (2021). Single Photon Avalanche Diode with Monte Carlo Simulations: PDE, Jitter and Quench Probability. 2021 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD).

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Thibauld Cazimajou, Marco Pala, Jérôme Saint-Martin, Rémi Helleboid, Jérémy Grebot, Denis Rideau, Philippe Dollfus (2021). Quenching Statistics of Silicon Single Photon Avalanche Diodes. IEEE Journal of the Electron Devices Society.

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Popular Topics

avalanche breakdown probability breakdown voltage Computational modeling defects Electric breakdown Jitter Monte Carlo methods Numerical models photon detection efficiency (PDE) Photonics Predictive models Probability Semiconductor device measurement Semiconductor device modeling Semiconductor process modeling Silicon single-photon avalanche diode (SPAD) Single-photon avalanche diodes Solid modeling Technology computer-aided design (TCAD)

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