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Main Authors: Abreu, Rafael, Nagesh, Chahana
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2512.09609
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author Abreu, Rafael
Nagesh, Chahana
author_facet Abreu, Rafael
Nagesh, Chahana
contents We extend the adjoint method to complex-valued PDEs and introduce the Fréchet root sensitivity kernel, as the most fundamental kernel from which all other material-sensitivity kernels can be derived. We apply this framework to four representative equations: two real-valued PDEs (the second-order wave equation and the Euler--Bernoulli beam equation) and two complex-valued PDEs (the complex transport equation and the Schroedinger equation with zero potential). We compute and analyze the Frechet root kernels for all four PDEs and show that, for constant material parameters, the kernel exhibits a consistent structure across systems, while its instantaneous form propagates as a wave whose shape depends on the initial conditions. For the Schroedinger equation, we find an especially notable result: the integrand of the Frechet root kernel coincides with the Born rule of quantum mechanics, suggesting that the probabilistic interpretation of the wavefunction may arise naturally from a general sensitivity-analysis framework rather than from an independent postulate. Our results establish a unified approach to sensitivity analysis for real- and complex-valued PDEs, provide a new perspective on the origin of the Born rule.
format Preprint
id arxiv_https___arxiv_org_abs_2512_09609
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle On the Frechet Root Kernel of Certain Wave Equations
Abreu, Rafael
Nagesh, Chahana
Geophysics
We extend the adjoint method to complex-valued PDEs and introduce the Fréchet root sensitivity kernel, as the most fundamental kernel from which all other material-sensitivity kernels can be derived. We apply this framework to four representative equations: two real-valued PDEs (the second-order wave equation and the Euler--Bernoulli beam equation) and two complex-valued PDEs (the complex transport equation and the Schroedinger equation with zero potential). We compute and analyze the Frechet root kernels for all four PDEs and show that, for constant material parameters, the kernel exhibits a consistent structure across systems, while its instantaneous form propagates as a wave whose shape depends on the initial conditions. For the Schroedinger equation, we find an especially notable result: the integrand of the Frechet root kernel coincides with the Born rule of quantum mechanics, suggesting that the probabilistic interpretation of the wavefunction may arise naturally from a general sensitivity-analysis framework rather than from an independent postulate. Our results establish a unified approach to sensitivity analysis for real- and complex-valued PDEs, provide a new perspective on the origin of the Born rule.
title On the Frechet Root Kernel of Certain Wave Equations
topic Geophysics
url https://arxiv.org/abs/2512.09609