FIT INFORMATION show precise values?

A multiparticle fit to ${{\mathit h}_{{{c}}}{(1P)}}$, ${{\mathit \eta}_{{{c}}}{(1S)}}$, ${{\mathit J / \psi}{(1S)}}$, ${{\mathit B}^{\pm}}$ and ${{\mathit \psi}{(2S)}}$ with the total width, 10 combinations of partial widths obtained from integrated cross section, and 38 branching ratios uses 115 measurements to determine 19 parameters. The overall fit has a $\chi {}^{2}$ = 215.4 for 96 degrees of freedom.

The following off-diagonal array elements are the correlation coefficients <$\mathit \delta $p$_{i}\delta $p$_{j}$> $/$ ($\mathit \delta $p$_{i}\cdot{}\delta $p$_{j}$), in percent, from the fit to parameters ${{\mathit p}_{{{i}}}}$, including the branching fractions, $\mathit x_{i}$ = $\Gamma _{i}$ $/$ $\Gamma _{total}$.

x₃₀	100
x^{${{\mathit \eta}_{{{c}}}{(1S)}}$}₁	-12	100
x^{${{\mathit \eta}_{{{c}}}{(1S)}}$}₆	-12	16	100
x^{${{\mathit \eta}_{{{c}}}{(1S)}}$}₉	-10	13	14	100
x^{${{\mathit \eta}_{{{c}}}{(1S)}}$}₁₆	-6	8	9	8	100
x^{${{\mathit \eta}_{{{c}}}{(1S)}}$}₁₈	-8	10	12	12	7	100
x^{${{\mathit \eta}_{{{c}}}{(1S)}}$}₃₇	-36	32	30	26	15	20	100
x^{${{\mathit \eta}_{{{c}}}{(1S)}}$}₃₈	-25	19	18	15	9	12	59	100
x^{${{\mathit \eta}_{{{c}}}{(1S)}}$}₄₁	-25	9	9	8	5	6	19	12	100
x^{${{\mathit \eta}_{{{c}}}{(1S)}}$}₄₅	-12	7	6	6	3	4	17	10	5	100
x^{${{\mathit \eta}_{{{c}}}{(1S)}}$}₄₈	-13	14	18	18	10	15	29	17	10	6	100
x^{${{\mathit \eta}_{{{c}}}{(1S)}}$}₅₂	-21	22	23	21	12	17	45	27	13	12	25	100
x^{${{\mathit \eta}_{{{c}}}{(1S)}}$}₅₄	-15	10	10	10	5	7	28	17	7	13	11	22	100
x^{${{\mathit \eta}_{{{c}}}{(1S)}}$}₅₅	-9	9	11	13	7	10	22	13	7	7	16	20	16	100
x^{${{\mathit \eta}_{{{c}}}{(1S)}}$}₆₀	29	-41	-37	-29	-17	-22	-76	-45	-20	-16	-33	-51	-23	-20	100
x^{${{\mathit \psi}{(2S)}}$}₁₉₉	2	-1	-1	-1	-1	-1	-3	-2	-3	-1	-3	-3	-1	-1	3	100
x^{${{\mathit J / \psi}{(1S)}}$}₂₄₈	18	-20	-30	-34	-20	-30	-42	-25	-16	-10	-46	-43	-17	-32	43	2	100
x^{${{\mathit B}^{\pm}}$}₂₇₄	21	-18	-18	-19	-9	-12	-50	-30	-11	-23	-19	-39	-55	-30	41	2	30	100
Γ^{${{\mathit \eta}_{{{c}}}{(1S)}}$}	1	-2	-1	-1	-1	-1	-3	-2	-1	-1	-1	1	-1	-1	-15	0	2	2	100
	x₃₀	x^{${{\mathit \eta}_{{{c}}}{(1S)}}$}₁	x^{${{\mathit \eta}_{{{c}}}{(1S)}}$}₆	x^{${{\mathit \eta}_{{{c}}}{(1S)}}$}₉	x^{${{\mathit \eta}_{{{c}}}{(1S)}}$}₁₆	x^{${{\mathit \eta}_{{{c}}}{(1S)}}$}₁₈	x^{${{\mathit \eta}_{{{c}}}{(1S)}}$}₃₇	x^{${{\mathit \eta}_{{{c}}}{(1S)}}$}₃₈	x^{${{\mathit \eta}_{{{c}}}{(1S)}}$}₄₁	x^{${{\mathit \eta}_{{{c}}}{(1S)}}$}₄₅	x^{${{\mathit \eta}_{{{c}}}{(1S)}}$}₄₈	x^{${{\mathit \eta}_{{{c}}}{(1S)}}$}₅₂	x^{${{\mathit \eta}_{{{c}}}{(1S)}}$}₅₄	x^{${{\mathit \eta}_{{{c}}}{(1S)}}$}₅₅	x^{${{\mathit \eta}_{{{c}}}{(1S)}}$}₆₀	x^{${{\mathit \psi}{(2S)}}$}₁₉₉	x^{${{\mathit J / \psi}{(1S)}}$}₂₄₈	x^{${{\mathit B}^{\pm}}$}₂₇₄	Γ^{${{\mathit \eta}_{{{c}}}{(1S)}}$}

	Mode	Rate (MeV)	Scale factor

Γ₃₀	${{\mathit h}_{{{c}}}{(1P)}}$ $\rightarrow$ ${{\mathit \gamma}}{{\mathit \eta}_{{{c}}}{(1S)}}$	($64$ $\pm5$) $ \times 10^{-2}$	1.2
Γ^{${{\mathit \eta}_{{{c}}}{(1S)}}$}₁	${{\mathit \eta}_{{{c}}}{(1S)}}$ $\rightarrow$ ${{\mathit \eta}^{\,'}{(958)}}{{\mathit \pi}}{{\mathit \pi}}$	($1.59$ $\pm0.34$) $ \times 10^{-2}$	1.7
Γ^{${{\mathit \eta}_{{{c}}}{(1S)}}$}₆	${{\mathit \eta}_{{{c}}}{(1S)}}$ $\rightarrow$ ${{\mathit K}^{}{(892)}}{{\overline{\mathit K}}^{}{(892)}}$	($5.5$ $\pm1.1$) $ \times 10^{-3}$	1.2
Γ^{${{\mathit \eta}_{{{c}}}{(1S)}}$}₉	${{\mathit \eta}_{{{c}}}{(1S)}}$ $\rightarrow$ ${{\mathit \phi}}{{\mathit \phi}}$	($1.4$ $\pm0.4$) $ \times 10^{-3}$	2.9
Γ^{${{\mathit \eta}_{{{c}}}{(1S)}}$}₁₆	${{\mathit \eta}_{{{c}}}{(1S)}}$ $\rightarrow$ ${{\mathit \omega}}{{\mathit \omega}}$	($2.1$ $\pm0.8$) $ \times 10^{-3}$	2.4
Γ^{${{\mathit \eta}_{{{c}}}{(1S)}}$}₁₈	${{\mathit \eta}_{{{c}}}{(1S)}}$ $\rightarrow$ ${{\mathit f}_{{{2}}}{(1270)}}{{\mathit f}_{{{2}}}{(1270)}}$	($8.4$ $\pm2.4$) $ \times 10^{-3}$	1.2
Γ^{${{\mathit \eta}_{{{c}}}{(1S)}}$}₃₇	${{\mathit \eta}_{{{c}}}{(1S)}}$ $\rightarrow$ ${{\mathit K}}{{\overline{\mathit K}}}{{\mathit \pi}}$	($5.9$ $\pm0.5$) $ \times 10^{-2}$	1.8
Γ^{${{\mathit \eta}_{{{c}}}{(1S)}}$}₃₈	${{\mathit \eta}_{{{c}}}{(1S)}}$ $\rightarrow$ ${{\mathit K}}{{\overline{\mathit K}}}{{\mathit \eta}}$	($1.11$ $\pm0.15$) $ \times 10^{-2}$	1.3
Γ^{${{\mathit \eta}_{{{c}}}{(1S)}}$}₄₁	${{\mathit \eta}_{{{c}}}{(1S)}}$ $\rightarrow$ ${{\mathit K}^{+}}{{\mathit K}^{-}}{{\mathit \pi}^{+}}{{\mathit \pi}^{-}}$	($6.7$ $\pm1.8$) $ \times 10^{-3}$	2.4
Γ^{${{\mathit \eta}_{{{c}}}{(1S)}}$}₄₅	${{\mathit \eta}_{{{c}}}{(1S)}}$ $\rightarrow$ 2( ${{\mathit K}^{+}}{{\mathit K}^{-}}$)	($1.2$ $\pm0.4$) $ \times 10^{-3}$	1.6
Γ^{${{\mathit \eta}_{{{c}}}{(1S)}}$}₄₈	${{\mathit \eta}_{{{c}}}{(1S)}}$ $\rightarrow$ 2( ${{\mathit \pi}^{+}}{{\mathit \pi}^{-}}$)	($7.5$ $\pm1.3$) $ \times 10^{-3}$	1.6
Γ^{${{\mathit \eta}_{{{c}}}{(1S)}}$}₅₂	${{\mathit \eta}_{{{c}}}{(1S)}}$ $\rightarrow$ ${{\mathit p}}{{\overline{\mathit p}}}$	($1.11$ $\pm0.12$) $ \times 10^{-3}$	1.4
Γ^{${{\mathit \eta}_{{{c}}}{(1S)}}$}₅₄	${{\mathit \eta}_{{{c}}}{(1S)}}$ $\rightarrow$ ${{\mathit p}}{{\overline{\mathit p}}}{{\mathit \pi}^{+}}{{\mathit \pi}^{-}}$	($3.4$ $\pm0.5$) $ \times 10^{-3}$	1.2
Γ^{${{\mathit \eta}_{{{c}}}{(1S)}}$}₅₅	${{\mathit \eta}_{{{c}}}{(1S)}}$ $\rightarrow$ ${{\mathit \Lambda}}{{\overline{\mathit \Lambda}}}$	($9.4$ $\pm1.8$) $ \times 10^{-4}$	1.2
Γ^{${{\mathit \eta}_{{{c}}}{(1S)}}$}₆₀	${{\mathit \eta}_{{{c}}}{(1S)}}$ $\rightarrow$ ${{\mathit \gamma}}{{\mathit \gamma}}$	($2.13$ $\pm0.15$) $ \times 10^{-4}$	1.5
Γ^{${{\mathit \psi}{(2S)}}$}₁₉₉	${{\mathit \psi}{(2S)}}$ $\rightarrow$ ${{\mathit \gamma}}{{\mathit \eta}_{{{c}}}{(1S)}}$	($3.6$ $\pm0.5$) $ \times 10^{-3}$	1.3
Γ^{${{\mathit J / \psi}{(1S)}}$}₂₄₈	${{\mathit J / \psi}{(1S)}}$ $\rightarrow$ ${{\mathit \gamma}}{{\mathit \eta}_{{{c}}}{(1S)}}$	($1.82$ $\pm0.15$) $ \times 10^{-2}$	1.6
Γ^{${{\mathit B}^{\pm}}$}₂₇₄	${{\mathit B}^{+}}$ $\rightarrow$ ${{\mathit \eta}_{{{c}}}}{{\mathit K}^{+}}$	($1.20$ $\pm0.08$) $ \times 10^{-3}$	1.3