**Table 3:** Physical properties and observation details for the 48 clusters of our sample.
Name	Obs ID	z^a	${k}T_{\rm M}{^b}$	R₁₈₀^c	Exp. time^d		$R_{\rm SB}{^e}$	Filter
RXC J0043.4-2037	0042340201	0.2924	6.8	1.78	11.9	11.3	1.25	THIN1
RXC J0232.2-4420	0042340301	0.2836	7.2	1.85	12.1	11.7	1.08	THIN1
RXC J0307.0-2840	0042340501	0.2534	6.8	1.82	11.4	12.6	1.08	THIN1
RXC J1131.9-1955	0042341001	0.3072	8.1	1.93	12.4	12.3	1.08	THIN1
RXC J2337.6+0016	0042341301	0.2730	7.2	1.86	13.4	13.1	1.19	THIN1
RXC J0532.9-3701	0042341801	0.2747	7.5	1.90	10.9	10.5	1.09	THIN1
Abell 68	0084230201	0.2550	7.2	1.88	26.3	25.9	1.37	MEDIUM
Abell 209	0084230301	0.2060	6.6	1.85	17.9	17.8	1.19	MEDIUM
Abell 267	0084230401^*	0.2310	4.5	1.49	17.0	16.5	1.79	MEDIUM
Abell 383	0084230501	0.1871	4.4	1.52	29.3	29.8	1.33	MEDIUM
Abell 773	0084230601	0.2170	7.5	1.96	13.6	15.5	1.16	MEDIUM
Abell 963	0084230701	0.2060	6.5	1.83	24.4	26.0	1.19	MEDIUM
Abell 1763	0084230901	0.2230	7.2	1.92	13.0	13.2	1.08	MEDIUM
Abell 1689	0093030101	0.1832	9.2	2.21	36.8	36.8	1.14	THIN1
RX J2129.6+0005	0093030201	0.2350	5.5	1.66	36.0	37.5	1.21	MEDIUM
ZW 3146	0108670101	0.2910	7.0	1.81	52.9	52.9	1.07	THIN1
E1455+2232	0108670201	0.2578	5.0	1.56	35.3	35.8	1.11	MEDIUM
Abell 2390	0111270101	0.2280	11.2	2.37	9.9	10.3	1.11	THIN1
Abell 2204	0112230301	0.1522	8.5	2.16	18.2	19.5	1.06	MEDIUM
Abell 1413	0112230501	0.1427	6.7	1.92	25.4	25.4	1.10	THIN1
Abell 2218	0112980101	0.1756	6.5	1.86	18.2	18.2	1.17	THIN1
Abell 2218	0112980401	0.1756	7.0	1.93	13.7	14.0	1.42	THIN1
Abell 2218	0112980501	0.1756	6.1	1.80	11.3	11.0	1.07	THIN1
Abell 1835	0147330201	0.2532	8.6	2.05	30.1	29.2	1.16	THIN1
Abell 1068	0147630101	0.1375	4.5	1.58	20.5	20.8	1.09	MEDIUM
Abell 2667	0148990101	0.2300	7.7	1.96	21.9	21.6	1.48	MEDIUM
Abell 3827	0149670101	0.0984	7.1	2.02	22.3	22.4	1.16	MEDIUM
Abell 3911	0149670301	0.0965	5.4	1.77	25.8	26.1	1.43	THIN1
Abell 2034	0149880101	0.1130	7.0	1.99	10.2	10.5	1.16	THIN1
RXC J0003.8+0203	0201900101	0.0924	3.7	1.47	26.3	26.6	1.10	THIN1
RXC J0020.7-2542	0201900301	0.1424	5.7	1.78	14.8	15.4	1.02	THIN1
RXC J0049.4-2931	0201900401	0.1080	3.3	1.37	19.2	18.8	1.28	THIN1
RXC J0547.6-3152	0201900901	0.1483	6.7	1.92	23.3	24.0	1.12	THIN1
RXC J0605.8-3518	0201901001	0.1410	4.9	1.65	18.0	24.1	1.07	THIN1
RXC J0645.4-5413	0201901201	0.1670	7.1	1.95	10.9	10.9	1.11	THIN1
RXC J1044.5-0704	0201901501	0.1323	3.9	1.47	25.7	25.9	1.03	THIN1
RXC J1141.4-1216	0201901601	0.1195	3.8	1.46	28.4	28.6	1.03	THIN1
RXC J1516.3+0005	0201902001	0.1183	5.3	1.73	26.7	26.6	1.13	THIN1
RXC J1516.5-0056	0201902101	0.1150	3.8	1.46	30.0	30.0	1.08	THIN1
RXC J2014.8-2430	0201902201	0.1612	7.1	1.96	23.0	23.4	1.05	THIN1
RXC J2048.1-1750	0201902401	0.1470	5.6	1.75	24.6	25.3	1.07	THIN1
RXC J2149.1-3041	0201902601	0.1179	3.3	1.37	25.1	25.5	1.11	THIN1
RXC J2218.6-3853	0201903001	0.1379	6.4	1.88	20.2	21.4	1.11	THIN1
RXC J2234.5-3744	0201903101	0.1529	8.6	2.17	18.9	19.3	1.31	THIN1
RXC J0645.4-5413	0201903401	0.1670	8.5	2.13	11.5	12.1	1.51	THIN1
RXC J0958.3-1103	0201903501	0.1527	6.1	1.83	8.3	9.4	1.16	THIN1
RXC J0303.8-7752	0205330101	0.2742	7.5	1.89	11.7	11.5	1.18	THIN1
RXC J0516.7-5430	0205330301	0.2952	7.5	1.87	11.4	11.7	1.19	THIN1

Notes. ^a Redshift taken from the NASA Extragalactic Database; ^b mean temperature in keV derived from our analysis; ^c scale radius in Mpc derived from our analysis; ^d MOS1 and MOS2 good exposure time in ks; ^e intensity of residual soft protons (see Eq. (1)); ^* excluded due to high residual soft proton contamination.

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