2020
DOI: 10.1088/1361-6455/ab8c56
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Quantum mechanical simulations of a carbon ion colliding with a biological target

Abstract: The presented investigation aims to establish a foundation for the study of ion beam cancer therapy employing time-dependent density functional theory for calculating collision cross-sections and energies of secondary electrons produced by a charged ion impacting on a biological target of arbitrary size and shape. The obtained collision cross-sections compare well to values obtained using the popular PASS code, which relies on the modified Bohr theory. Furthermore, we demonstrate that the differential cross-se… Show more

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Cited by 2 publications
(2 citation statements)
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“…Limitations and Challenges : As for ground-state DFT, the accuracy of TDDFT calculations depends on the chosen XC functional. Due to the high computational costs of TDDFT calculations, a rigorous quantum-mechanical description of the irradiation-driven processes using TDDFT is only feasible for relatively small systems containing, at most, a few hundred atoms and is typically limited to femtosecond time scales. , …”
Section: Existing Theoretical and Computational Methods And Their Limitsmentioning
confidence: 99%
See 1 more Smart Citation
“…Limitations and Challenges : As for ground-state DFT, the accuracy of TDDFT calculations depends on the chosen XC functional. Due to the high computational costs of TDDFT calculations, a rigorous quantum-mechanical description of the irradiation-driven processes using TDDFT is only feasible for relatively small systems containing, at most, a few hundred atoms and is typically limited to femtosecond time scales. , …”
Section: Existing Theoretical and Computational Methods And Their Limitsmentioning
confidence: 99%
“…Due to the high computational costs of TDDFT calculations, a rigorous quantum-mechanical description of the irradiation-driven processes using TDDFT is only feasible for relatively small systems containing, at most, a few hundred atoms and is typically limited to femtosecond time scales. 191,192 TDDFT can be used for calculating probabilities of chemically driven and irradiation-induced quantum processes, which serve as inputs for reactive and irradiation-driven molecular dynamics simulations (see sections 3.3.5 and 3.3.6, respectively). However, determining such probabilities requires multiple real-time simulations of electron dynamics for the statistical analysis of the calculated quantities.…”
Section: Quantum Processesmentioning
confidence: 99%