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Toward tight gamma-ray burst luminosity relations

The large scatters of luminosity relations of gamma-ray bursts (GRBs) have been one of the most important reasons that prevent the extensive applications of GRBs in cosmology. Many efforts have been made to seek tight luminosity relations. With the latest sample of 116 GRBs with measured redshift and spectral parameters, we investigate 6 two-dimensional (2D) correlations and 14 derived three-dimensional (3D) correlations of GRBs to explore the possibility of decreasing the intrinsic scatters of the luminosity relations of GRBs. We find the 3D correlation of $E_{\mathrm{peak}}$--$τ_{\mathrm{RT}}$--$L$ to be evidently tighter (at the $2 σ$ confidence level) than its corresponding 2D correlations, i.e., the $E_{\mathrm{peak}}$--$L$ and $τ_{\mathrm{RT}}$--$L$ correlations. In addition, the coefficients before the logarithms of $E_{\mathrm{peak}}$ and $τ_{\mathrm{RT}}$ in the $E_{\mathrm{peak}}$--$τ_{\mathrm{RT}}$--$L$ correlation are almost exact opposites of each other. Inputting this situation as a prior reduces the relation to $L \propto (E_{\mathrm{peak}}^{'} / τ_{\mathrm{RT}}^{'})^{0.842 \pm 0.064}$, where $E_{\mathrm{peak}}^{'}$ and $τ_{\mathrm{RT}}^{'}$ denote the peak energy and minimum rise time in the GRB rest frame. We discuss how our findings can be interpreted/understood in the framework of the definition of the luminosity (energy released in units of time). Our argument about the connection between the luminosity relations of GRBs and the definition of the luminosity provides a clear direction for exploring tighter luminosity relations of GRBs in the future.