Hamilton-Jacobi analysis of slow-roll inflation with non-Bekenstein-Hawking entropies yields fitted entropy parameters (δ≈1.1-1.2, α∼10^{-14}, K∼10^{-17}) consistent with ns and r data.
Stability of $(\alpha,\beta,\gamma)-$derivations on Lie $C^*-$algebras
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abstract
Petr Novotn\'y and Ji\v{r}\'l Hrivn\'ak \cite{Nov} investigated generalize the concept of Lie derivations via certain complex parameters and obtained various Lie and Jordan operator algebras as well as two one- parametric sets of linear operators. Moreover, they established the structure and properties of $(\alpha,\beta,\gamma)-$derivations of Lie algebras. We say a functional equation $(\xi)$ is stable if any function $g$ satisfying the equation $(\xi)$ {\it approximately} is near to true solution of $(\xi).$ In the present paper, we investigate the stability of $(\alpha,\beta,\gamma)-$derivations on Lie $C^*$-algebras associated with the following functional equation $$f(\frac{x_2-x_1}{3})+f(\frac{x_1-3 x_3}{3})+ f(\frac{3x_1+3x_3-x_2}{3})=f(x_1).$$ }
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astro-ph.CO 1years
2026 1verdicts
UNVERDICTED 1representative citing papers
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Hamilton-Jacobi Approach to Inflationary Scenarios through Extended Entropies: An Observational Perspective
Hamilton-Jacobi analysis of slow-roll inflation with non-Bekenstein-Hawking entropies yields fitted entropy parameters (δ≈1.1-1.2, α∼10^{-14}, K∼10^{-17}) consistent with ns and r data.