Table 5: Power law, $Y=Y_0\;X^{\gamma}$ , parameterized X-ray scaling relations.
X Y Y₀ $\gamma$ Scatter Sample

X Y

$\frac{T_{0.2-0.5r_{500}}}{\rm keV}$ $\frac{S_{0.2r_{500}}}{\rm keV\;cm^{2}} \; E(z)^{4/3} \; \left(\frac{\Delta_{{\rm c},z}}{\Delta_{{\rm c},0}}\right)^{2/3}$ $10^{2.08\pm0.26}$ $0.90 \pm 0.30$ -- -- REFLEX-DXL

$10^{2.00\pm0.16}$ $0.81 \pm 0.19$ -- -- pilot LoCuSS sample

$10^{1.96\pm0.22}$ $0.89 \pm 0.25$ -- -- non-CCC subsample

$10^{2.04\pm0.18}$ $0.71 \pm 0.21$ -- -- CCC subsample

$\frac{r}{r_{500}}$ $\frac{S}{\rm keV\;cm^{2}} \; E(z)^{4/3} \; \left(\frac{\Delta_{{\rm c},z}}{\Del... ... c},0}}\right)^{2/3} \left(\frac{T_{0.2-0.5r_{500}}}{10~\rm keV}\right)^{-0.65}$ $10^{3.52\pm0.03}$ $1.00 \pm 0.07$ -- -- REFLEX-DXL

$10^{3.50\pm0.02}$ $1.01 \pm 0.04$ -- -- pilot LoCuSS sample

$10^{3.49\pm0.02}$ $0.97 \pm 0.05$ -- -- non-CCC subsample

$10^{3.52\pm0.02}$ $1.10 \pm 0.05$ -- -- CCC subsample

$\frac{T_{0.2-0.5r_{500}}}{\rm keV}$ $\frac{M_{500}}{M_{\odot}} \; E(z) \; \left(\frac{\Delta_{{\rm c},z}}{\Delta_{{\rm c},0}}\right)^{0.5}$ $10^{13.69\pm0.03}h_{70}^{-1}$ 1.5 (fixed) 0.05 0.15 pilot LoCuSS sample

$10^{13.72\pm0.04}h_{70}^{-1}$ 1.5 (fixed) 0.05 0.20 non-CCC subsample

$10^{13.91\pm0.38}h_{70}^{-1}$ $1.24\pm0.44$ 0.06 0.15 pilot LoCuSS sample

$10^{13.41\pm0.53}h_{70}^{-1}$ $1.87\pm0.63$ 0.07 0.19 non-CCC subsample

$\frac{T_{0.2-0.5r_{500}}}{\rm keV}$ $\frac{M_{\rm gas,500}}{M_{\odot}} \; E(z) \; \left(\frac{\Delta_{{\rm c},z}}{\Delta_{{\rm c},0}}\right)^{0.5}$ $10^{12.54\pm0.04}h_{70}^{-1}$ 1.8 (fixed) 0.06 0.10 pilot LoCuSS sample

$10^{12.54\pm0.05}h_{70}^{-1}$ 1.8 (fixed) 0.06 0.11 non-CCC subsample

$10^{11.72\pm0.70}h_{70}^{-1}$ $2.76\pm 0.81$ 0.05 0.13 pilot LoCuSS sample

$10^{11.65\pm0.98}h_{70}^{-1}$ $2.86\pm 1.17$ 0.05 0.13 non-CCC subsample

$\frac{T_{0.2-0.5r_{500}}}{\rm keV}$ $\frac{L_{\rm0.1-2.4keV}^{\rm corr}}{\rm erg\;s^{-1}}\;E(z)^{-1} \; \left(\frac{\Delta_{{\rm c},z}}{\Delta_{{\rm c},0}}\right)^{-0.5}$ $10^{42.31\pm0.04}h_{70}^{-1}$ 2.60 (fixed) 0.05 0.12 pilot LoCuSS sample

$10^{42.30\pm0.05}h_{70}^{-1}$ 2.60 (fixed) 0.05 0.13 non-CCC subsample

$10^{41.87\pm0.71}h_{70}^{-1}$ $3.11\pm 0.82$ 0.04 0.13 pilot LoCuSS sample

$10^{42.17\pm0.86}h_{70}^{-1}$ $2.76\pm 1.01$ 0.05 0.14 non-CCC subsample

$\frac{T_{0.2-0.5r_{500}}}{\rm keV}$ $\frac{L_{\rm bol}^{\rm corr}}{\rm erg\;s^{-1}}\;E(z)^{-1} \; \left(\frac{\Delta_{{\rm c},z}}{\Delta_{{\rm c},0}}\right)^{-0.5}$ $10^{42.39\pm0.04}h_{70}^{-1}$ 2.98 (fixed) 0.04 0.12 pilot LoCuSS sample

$10^{42.38\pm0.05}h_{70}^{-1}$ 2.98 (fixed) 0.05 0.13 non-CCC subsample

$10^{41.84\pm0.70}h_{70}^{-1}$ $3.62 \pm 0.80$ 0.04 0.13 pilot LoCuSS sample

$10^{41.95\pm0.90}h_{70}^{-1}$ $3.49 \pm 1.06$ 0.04 0.14 non-CCC subsample

$\frac{M_{500}}{M_{\odot}} \; E(z) \; \left(\frac{\Delta_{{\rm c},z}}{\Delta_{{\rm c},0}}\right)^{0.5}$ $\frac{L_{\rm0.1-2.4keV}^{\rm corr}}{\rm erg\;s^{-1}}\;E(z)^{-1} \; \left(\frac{\Delta_{{\rm c},z}}{\Delta_{{\rm c},0}}\right)^{-0.5}$ $10^{18.65\pm0.04}h_{70}^{-1}$ 1.73 (fixed) 0.14 0.11 pilot LoCuSS sample

$10^{18.61\pm0.04}h_{70}^{-1}$ 1.73 (fixed) 0.19 0.12 non-CCC subsample

$10^{18.12\pm4.74}h_{70}^{-1}$ $1.77 \pm 0.32$ 0.14 0.11 pilot LoCuSS sample

$10^{22.85\pm3.51}h_{70}^{-1}$ $1.45 \pm 0.23$ 0.19 0.12 non-CCC subsample

$\frac{M_{500}}{M_{\odot}} \; E(z) \; \left(\frac{\Delta_{{\rm c},z}}{\Delta_{{\rm c},0}}\right)^{0.5}$ $\frac{L_{\rm bol}^{\rm corr}}{\rm erg\;s^{-1}}\;E(z)^{-1} \; \left(\frac{\Delta_{{\rm c},z}}{\Delta_{{\rm c},0}}\right)^{-0.5}$ $10^{15.16 \pm 0.04}h_{70}^{-1}$ 1.99 (fixed) 0.14 0.12 pilot LoCuSS sample

$10^{15.11 \pm 0.04}h_{70}^{-1}$ 1.99 (fixed) 0.19 0.13 non-CCC subsample

$10^{14.16 \pm 5.39}h_{70}^{-1}$ $2.06 \pm 0.36$ 0.14 0.12 pilot LoCuSS sample

$10^{19.88 \pm 3.19}h_{70}^{-1}$ $1.67 \pm 0.21$ 0.19 0.13 non-CCC subsample

**Table 5:** Power law, $Y=Y_0\;X^{\gamma}$ , parameterized X-ray scaling relations.
X	Y	Y₀	$\gamma$	Scatter	Sample
				X	Y
$\frac{T_{0.2-0.5r_{500}}}{\rm keV}$	$\frac{S_{0.2r_{500}}}{\rm keV\;cm^{2}} \; E(z)^{4/3} \; \left(\frac{\Delta_{{\rm c},z}}{\Delta_{{\rm c},0}}\right)^{2/3}$	$10^{2.08\pm0.26}$	$0.90 \pm 0.30$	--	--	REFLEX-DXL
		$10^{2.00\pm0.16}$	$0.81 \pm 0.19$	--	--	pilot LoCuSS sample
		$10^{1.96\pm0.22}$	$0.89 \pm 0.25$	--	--	non-CCC subsample
		$10^{2.04\pm0.18}$	$0.71 \pm 0.21$	--	--	CCC subsample
$\frac{r}{r_{500}}$	$\frac{S}{\rm keV\;cm^{2}} \; E(z)^{4/3} \; \left(\frac{\Delta_{{\rm c},z}}{\Del... ... c},0}}\right)^{2/3} \left(\frac{T_{0.2-0.5r_{500}}}{10~\rm keV}\right)^{-0.65}$	$10^{3.52\pm0.03}$	$1.00 \pm 0.07$	--	--	REFLEX-DXL
		$10^{3.50\pm0.02}$	$1.01 \pm 0.04$	--	--	pilot LoCuSS sample
		$10^{3.49\pm0.02}$	$0.97 \pm 0.05$	--	--	non-CCC subsample
		$10^{3.52\pm0.02}$	$1.10 \pm 0.05$	--	--	CCC subsample
$\frac{T_{0.2-0.5r_{500}}}{\rm keV}$	$\frac{M_{500}}{M_{\odot}} \; E(z) \; \left(\frac{\Delta_{{\rm c},z}}{\Delta_{{\rm c},0}}\right)^{0.5}$	$10^{13.69\pm0.03}h_{70}^{-1}$	1.5 (fixed)	0.05	0.15	pilot LoCuSS sample
		$10^{13.72\pm0.04}h_{70}^{-1}$	1.5 (fixed)	0.05	0.20	non-CCC subsample
		$10^{13.91\pm0.38}h_{70}^{-1}$	$1.24\pm0.44$	0.06	0.15	pilot LoCuSS sample
		$10^{13.41\pm0.53}h_{70}^{-1}$	$1.87\pm0.63$	0.07	0.19	non-CCC subsample
$\frac{T_{0.2-0.5r_{500}}}{\rm keV}$	$\frac{M_{\rm gas,500}}{M_{\odot}} \; E(z) \; \left(\frac{\Delta_{{\rm c},z}}{\Delta_{{\rm c},0}}\right)^{0.5}$	$10^{12.54\pm0.04}h_{70}^{-1}$	1.8 (fixed)	0.06	0.10	pilot LoCuSS sample
		$10^{12.54\pm0.05}h_{70}^{-1}$	1.8 (fixed)	0.06	0.11	non-CCC subsample
		$10^{11.72\pm0.70}h_{70}^{-1}$	$2.76\pm 0.81$	0.05	0.13	pilot LoCuSS sample
		$10^{11.65\pm0.98}h_{70}^{-1}$	$2.86\pm 1.17$	0.05	0.13	non-CCC subsample
$\frac{T_{0.2-0.5r_{500}}}{\rm keV}$	$\frac{L_{\rm0.1-2.4keV}^{\rm corr}}{\rm erg\;s^{-1}}\;E(z)^{-1} \; \left(\frac{\Delta_{{\rm c},z}}{\Delta_{{\rm c},0}}\right)^{-0.5}$	$10^{42.31\pm0.04}h_{70}^{-1}$	2.60 (fixed)	0.05	0.12	pilot LoCuSS sample
		$10^{42.30\pm0.05}h_{70}^{-1}$	2.60 (fixed)	0.05	0.13	non-CCC subsample
		$10^{41.87\pm0.71}h_{70}^{-1}$	$3.11\pm 0.82$	0.04	0.13	pilot LoCuSS sample
		$10^{42.17\pm0.86}h_{70}^{-1}$	$2.76\pm 1.01$	0.05	0.14	non-CCC subsample
$\frac{T_{0.2-0.5r_{500}}}{\rm keV}$	$\frac{L_{\rm bol}^{\rm corr}}{\rm erg\;s^{-1}}\;E(z)^{-1} \; \left(\frac{\Delta_{{\rm c},z}}{\Delta_{{\rm c},0}}\right)^{-0.5}$	$10^{42.39\pm0.04}h_{70}^{-1}$	2.98 (fixed)	0.04	0.12	pilot LoCuSS sample
		$10^{42.38\pm0.05}h_{70}^{-1}$	2.98 (fixed)	0.05	0.13	non-CCC subsample
		$10^{41.84\pm0.70}h_{70}^{-1}$	$3.62 \pm 0.80$	0.04	0.13	pilot LoCuSS sample
		$10^{41.95\pm0.90}h_{70}^{-1}$	$3.49 \pm 1.06$	0.04	0.14	non-CCC subsample
$\frac{M_{500}}{M_{\odot}} \; E(z) \; \left(\frac{\Delta_{{\rm c},z}}{\Delta_{{\rm c},0}}\right)^{0.5}$	$\frac{L_{\rm0.1-2.4keV}^{\rm corr}}{\rm erg\;s^{-1}}\;E(z)^{-1} \; \left(\frac{\Delta_{{\rm c},z}}{\Delta_{{\rm c},0}}\right)^{-0.5}$	$10^{18.65\pm0.04}h_{70}^{-1}$	1.73 (fixed)	0.14	0.11	pilot LoCuSS sample
		$10^{18.61\pm0.04}h_{70}^{-1}$	1.73 (fixed)	0.19	0.12	non-CCC subsample
		$10^{18.12\pm4.74}h_{70}^{-1}$	$1.77 \pm 0.32$	0.14	0.11	pilot LoCuSS sample
		$10^{22.85\pm3.51}h_{70}^{-1}$	$1.45 \pm 0.23$	0.19	0.12	non-CCC subsample
$\frac{M_{500}}{M_{\odot}} \; E(z) \; \left(\frac{\Delta_{{\rm c},z}}{\Delta_{{\rm c},0}}\right)^{0.5}$	$\frac{L_{\rm bol}^{\rm corr}}{\rm erg\;s^{-1}}\;E(z)^{-1} \; \left(\frac{\Delta_{{\rm c},z}}{\Delta_{{\rm c},0}}\right)^{-0.5}$	$10^{15.16 \pm 0.04}h_{70}^{-1}$	1.99 (fixed)	0.14	0.12	pilot LoCuSS sample
		$10^{15.11 \pm 0.04}h_{70}^{-1}$	1.99 (fixed)	0.19	0.13	non-CCC subsample
		$10^{14.16 \pm 5.39}h_{70}^{-1}$	$2.06 \pm 0.36$	0.14	0.12	pilot LoCuSS sample
		$10^{19.88 \pm 3.19}h_{70}^{-1}$	$1.67 \pm 0.21$	0.19	0.13	non-CCC subsample

Source LaTeX | All tables | In the text