International Journal For Multidisciplinary Research

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Quantum Computing for Nuclear Fusion: Advancing Simulation and Optimization

Author(s) Sourish Dey, Koushik Paul
Country India
Abstract Nuclear fusion is a great promise for the route toward clean, abundant, and sustainable energy, possibly solving the limits of contemporary resources. Yet, models for controlled fusion on Earth demand so much simulation: calculations into particle interaction and plasma behavior and even reaction dynamics that defy strict classical calculation. Quantum computing-that has the ability to support those complex, multi-dimensional calculations-offers hope in the fusion research frontier.

This paper introduces quantum algorithms, such as Quantum Phase Estimation for predictions of energy states, Variational Quantum Eigen solver for modeling particle interactions, and Quantum Monte Carlo to simulate stochastic processes like plasma turbulence. The algorithms together will facilitate precise modeling and optimization of the fusion parameters to maximize energy output and reactor stability.

This hybrid quantum-classical approach will be: classical computers for preprocessing data and intensive simulations using quantum processors. Preliminary experimental data from IBM Quantum suggests that quantum algorithms could be more efficient and accurate than their classical counterparts. This work, therefore, demonstrates the potential that quantum computing holds to speed up research in fusion, leading to a scalable solution for high-stakes applications in energy and the scientific domain.
Keywords Quantum Computing, Nuclear Fusion, Simulation, Optimization
Field Engineering
Published In Volume 6, Issue 6, November-December 2024
Published On 2024-12-10
Cite This Quantum Computing for Nuclear Fusion: Advancing Simulation and Optimization - Sourish Dey, Koushik Paul - IJFMR Volume 6, Issue 6, November-December 2024. DOI 10.36948/ijfmr.2024.v06i06.32749
DOI https://doi.org/10.36948/ijfmr.2024.v06i06.32749
Short DOI https://doi.org/g8vggq
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