A quantum algorithm for computing dispersal of submarine volcanic tephra

Author:

Basu Biswajit12ORCID,Gurusamy Saravanan1ORCID,Gaitan Frank3ORCID

Affiliation:

1. School of Engineering, Trinity College Dublin 1 , Dublin, Ireland

2. Trinity Quantum Alliance, Trinity College Dublin 2 , Dublin, Ireland

3. Laboratory of Physical Sciences 3 , College Park, Maryland, USA

Abstract

In this paper, we develop a quantum computing algorithm for solving the partial differential equation (PDE) for tephra dispersal through advection in the semi-infinite horizontal buoyant region of a submarine volcanic eruption. The concentration of pyroclastic particles in the fluid domain of a hydrothermal megaplume provides important information about the rate of volcanic energy release, mechanism of formation of the megaplume, and submarine depositional patterns. This work leveraging on previous works [F. Gaitan, NPJ Quantum Inf. 6, 61 (2020); F. Gaitan, Adv. Quantum Tech. 4, 2100055 (2021)] further opens up opportunities to solve wider classes of PDEs with different applications of interest. Some additional specific contributions of this work are transforming the semi-infinite spatial domain problem into a problem on a finite spatial domain for applying the quantum algorithm, and the investigation into the effect of spatial and temporal resolution on the solution of PDEs for the quantum algorithm. Furthermore, possible modification of the algorithm with different spatial discretization schemes has been presented and their influence and implications on the solution of the PDE have been discussed. Also, studies are conducted to examine the effect of regularity conditions in time and the presence of statistical noise in the spatial domain, on the solutions obtained using quantum algorithms. The study in this paper paves an important pathway to venture into other types of advection-diffusion problems.

Publisher

AIP Publishing

Cited by 1 articles. 订阅此论文施引文献 订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献

1. A Quantum Annealing Approach to Fluid Dynamics Problems Solving Navier-Stokes Equations;2024 9th International Conference on Smart and Sustainable Technologies (SpliTech);2024-06-25

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