Kramers–Kronig relations link the real and imaginary parts of the Fourier transform of a well-behaved causal transfer function describing a linear, time-invariant system. From the physical point of view, according to the Kramers–Kronig relations, absorption and dispersion become two sides of the same coin. Due to the simplicity of the assumptions underlying them, the relations are a cornerstone of physics. The rigorous mathematical proof was carried out by Titchmarsh in 1937 and just requires the transfer function to be square-integrable (L^2), or equivalently that the impulse response of the system at hand has a finite energy. Titchmarsh’s proof is definitely not easy, thus leading to crucial steps that are often overlooked by instructors and, occasionally, prompting some authors to attempt shaky shortcuts. Here, we share a rigorous mathematical proof that relies on the Laplace formalism and requires a slightly stronger assumption on the transfer function, namely it being Lebesgue-integrable (L^1). While the result is not as general as Titchmarsh’s proof, its enhanced simplicity makes a deeper knowledge of the mathematical aspects of the Kramers–Kronig relations more accessible to the audience of physicists.

Prevedelli, M., Perinelli, A., Ricci, L. (2024). Kramers–Kronig relations via Laplace formalism and L^1 integrability. AMERICAN JOURNAL OF PHYSICS, 92(11), 859-863 [10.1119/5.0217609].

Kramers–Kronig relations via Laplace formalism and L^1 integrability

Prevedelli, Marco
Primo
;
2024

Abstract

Kramers–Kronig relations link the real and imaginary parts of the Fourier transform of a well-behaved causal transfer function describing a linear, time-invariant system. From the physical point of view, according to the Kramers–Kronig relations, absorption and dispersion become two sides of the same coin. Due to the simplicity of the assumptions underlying them, the relations are a cornerstone of physics. The rigorous mathematical proof was carried out by Titchmarsh in 1937 and just requires the transfer function to be square-integrable (L^2), or equivalently that the impulse response of the system at hand has a finite energy. Titchmarsh’s proof is definitely not easy, thus leading to crucial steps that are often overlooked by instructors and, occasionally, prompting some authors to attempt shaky shortcuts. Here, we share a rigorous mathematical proof that relies on the Laplace formalism and requires a slightly stronger assumption on the transfer function, namely it being Lebesgue-integrable (L^1). While the result is not as general as Titchmarsh’s proof, its enhanced simplicity makes a deeper knowledge of the mathematical aspects of the Kramers–Kronig relations more accessible to the audience of physicists.
2024
Prevedelli, M., Perinelli, A., Ricci, L. (2024). Kramers–Kronig relations via Laplace formalism and L^1 integrability. AMERICAN JOURNAL OF PHYSICS, 92(11), 859-863 [10.1119/5.0217609].
Prevedelli, Marco; Perinelli, Alessio; Ricci, Leonardo
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/994791
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