Proposed

Proposed topics for LOIs derive from our topics.

To propose additions, modifications, provide comments, or if you are interested to participate to the writing - or simply to co-sign - one of the proposed LOIs listed below, send an email to AccBeamModelSnowmass21@lbl.gov or submit a pull request via github.

Many authors shared their LOIs below, prior to submission deadline to Snowmass on Monday, August 31st 2020. For the LOIs that have a link below, contact the first author directly, in order to have your name added, or in order to make other modifications. For all other LOIs, please contact the mailing list for feedback.

  • A modular community ecosystem for multiphysics particle accelerator modeling and design - view on overleaf - Jean-Luc Vay, Axel Huebl, David Sagan, David Bruhwiler, Ao Liu, Cho-Kuen Ng, Ji Qiang, Rémi Lehe.

  • Beam Dynamics Toolkit - view on overleaf - David Sagan, Robert Ryne, Jean-Luc Vay, Georg Hoffstaetter, Ji Qiang, Alex Friedman.

  • EVA (End-to-end Virtual Accelerators) - view on overleaf - Jean-Luc Vay, David Sagan, Axel Huebl.

  • Develop/integrate data standards & start-to-end workflows for Accelerator Physics - view on overleaf (submitted) - Axel Huebl, Jean-Luc Vay, Rémi Lehe, Maxence Thévenet, Christopher Mayes, David Sagan, Yu-Dai Tsai, Juncheng E, Frank Tsung, Henri Vincenti, Angel Ferran Pousa, Nathan M. Cook, Spencer J. Gessner, Franz Poeschel, Michael Bussmann, David P. Grote, Nicholas A. Murphy, Ryan Schmitz, Chun H. Yoon, David L. Bruhwiler, Kyle Cranmer, Samuel R. Yoffe, Brigitte Cros, Auralee L. Edelen, Giordon Stark.

  • Aspiration for Open Science in Accelerator & Beam Physics Modeling - view on overleaf (submitted) - Axel Huebl, Jean-Luc Vay, Rémi Lehe, Christopher Mayes, Yu-Dai Tsai, Alex Friedman, Maxence Thévenet, Henri Vincenti, David L. Bruhwiler, Aaron Sauers, Nathan M. Cook, Spencer J. Gessner, Michael Bussmann, David P. Grote, Ryan Schmitz, Brigitte Cros, David Sagan, Samuel R. Yoffe, Auralee L. Edelen, Angel Ferran Pousa, Giordon Stark.

  • Machine learning and surrogates models for simulation-based optimization of accelerator design - view on overleaf - Remi Lehe, Adi Hanuka, Auralee Edelen, Xiabiao Huang, Christopher Mayes, Nathan Cook, Claudio Emma, Axel Huebl, Ryan Roussel, Maxence Thevenet, Jean-Luc Vay.

  • Embracing modern software tools and user-friendly practices, when distributing scientific codes - view on overleaf - Rémi Lehe, Axel Huebl, Jean-Luc Vay

  • Center(s) for accelerator and beam modeling - view on overleaf - Jean-Luc Vay, David Bruhwiler, David Sagan, Axel Huebl, Rémi Lehe, Cho-Kuen Ng, Ji Qiang.

  • Plasma acceleration theory and simulation needs - Carl Schroeder, Warren Mori, Carlo Benedetti, Eric Esarey, Axel Huebl, Rémi Lehe, Jean-Luc Vay.

  • Modeling of structured plasmas for next generation accelerators - Nathan Cook, Carlo Benedetti, David Bruhwiler, Enrico Brunetti, Stepan Bulanov, Stephen Coleman, Brigitte Cros, Bernhard Ersfeld, Spencer Gessner, Ahmad Fahim Habib, Thomas Heinemann, Bernhard Hidding, George Holt, Dino Jaroszynski, Remi Lehe, Jarrod Leddy, Carl Schroeder, Paul Scherkl, Peter Stoltz, Maxence Thévenet, Petros Tzeferacos, Jean-Luc Vay, Samueal Yoffe, Stephen Webb.

  • Poisson solver library - Ji Qiang.

  • Physics-based high brightness beam injector modeling - view on google docs - Chengkun Huang, Cho Ng, Tom Kwan, Vitaly Pavlenko.

  • Consortium for PIC modeling in accelerator science - view on overleaf - Warren Mori, Frank Tsung.

  • Cloud computing and use in education - David Bruhwiler.

  • Quantum computing for accelerator and beam physics - view on overleaf - He Zhang, Ji Qiang.

  • Modeling of electron cooling from first princicples - view on overleaf - He Zhang.

  • Numerical Modeling for Superconducting Accelerator Magnets - Lucas Brouwer.

  • Surface Methods for Precision Accelerator Design and Virtual Prototyping of Accelerator Systems - view on overleaf - Robert D. Ryne, Dan T. Abell, D.L. Bruhwiler, Alex J. Dragt, Chad Mitchell, Ji Qiang, Jean-Luc Vay, and Peter Walstrom.