Physics researchers overhaul decades-old particle simulator for modern computing
Scientists have completely rebuilt CORSIKA, a foundational tool used globally to model cosmic ray interactions in Earth's atmosphere. The redesigned version, built on modern software architecture, maintains the accuracy of the original while opening doors for faster experimentation and customization—critical for advancing next-generation particle detection research and climate modeling.
Originaltitel: CORSIKA 8: A general framework for particle cascade simulations
<p>The simulation of extensive air showers and particle cascades in general is a cornerstone of modern astroparticle physics. For more than two decades, CORSIKA, currently in version 7, has been one of the most widely used tools for this purpose. However, its architecture reflects design constraints of an earlier computing era, as well as increasingly limiting extensibility, maintainability, and adaptability to modern experimental requirements. CORSIKA 8 is a complete redesign of the original CORSIKA code, implemented in modern C++ and based on contemporary software engineering principles. It introduces a modular and extensible simulation framework with explicit handling of units, flexible geometry, and environment descriptions. In this paper, we present the design philosophy and core architecture of CORSIKA 8, describe the implementation of electromagnetic and hadronic shower physics, and validate air shower simulations against CORSIKA 7. The results demonstrate good agreement at the similar to 5-10% level for key observables, confirming the physics fidelity of CORSIKA 8. The observed differences reflect the current level of intrinsic systematic uncertainties in state-of-the-art air-shower simulations. We also showcase new use cases that were beyond the capabilities of version 7, such as the simulation of cross-media showers and particle cascades in ice, including radio-signal propagation.</p>