Free Access

Table A.1

Summary of results for all clusters between 20° ≤ δ< 87° with Planck S/N> 5.

Cluster name Planck Planck Category Aliases Previous Redshift Notes
S/N det. AMI

PSZ1 G075.71+13.51 25.96 111 LZ RXC J1921.1+4357, A2319 0.0557
PSZ1 G110.99+31.74 22.70 111 LZ RXC J1703.8+7838, A2256 0.0581
PSZ1 G044.24+48.66 19.56 111 LZ RXC J1558.3+2713, A2142 0.0894
PSZ1 G072.61+41.47 19.42 111 R RXC J1640.3+4642, A2219 0.228
PSZ1 G093.93+34.92 18.07 111 LZ RXC J1712.7+6403, A2255 0.0809
PSZ1 G097.72+38.13 17.21 111 Y 33.77 RXC J1635.8+6612, A2218 2, 5, 6 0.1709
PSZ1 G186.37+37.26 15.51 111 R RXC J0842.9+3621, A697 0.282
PSZ1 G057.84+87.98 15.25 111 LZ RXC J1259.7+2756, Coma, A1656 0.0231
PSZ1 G086.47+15.31 14.97 111 Y 14.58 RXC J1938.3+5409 0.26
PSZ1 G033.84+77.17 14.20 111 LZ RXC J1348.8+2635, A1795 0.0622
PSZ1 G170.22+09.74 14.12 111 R 1RXS J060313.4+421231
PSZ1 G149.21+54.17 13.60 111 R RXC J1058.4+5647, A1132 0.1369
PSZ1 G092.67+73.44 13.41 111 R RXC J1335.3+4059, A1763 0.2279
PSZ1 G072.78-18.70 13.09 111 M 1.78 ZwCl 2120+2256, ZwCl 8503 0.143
PSZ1 G149.75+34.68 12.97 111 Y 46.38 RXC J0830.9+6551, A665 0.1818
PSZ1 G191.00+06.65 12.44 111 LZ RXC J0635.0+2231 0.068
PSZ1 G058.29+18.57 11.78 111 LZ RXC J1825.3+3026, CIZA J1825.3+3026 0.065
PSZ1 G067.19+67.44 11.76 111 Y 28.83 RXC J1426.0+3749, A1914 1, 2, 4, 6 0.1712
PSZ1 G107.14+65.29 11.20 111 R RXC J1332.7+5032, A1758 5 0.2799
PSZ1 G055.58+31.87 10.83 111 R RXC J1722.4+3208, A2261 0.224
PSZ1 G062.94+43.69 10.78 111 LZ RXC J1628.6+3932, A2199 0.0299
PSZ1 G042.85+56.63 10.67 111 LZ RXC J1522.4+2742, A2065 0.0723
PSZ1 G094.00+27.41 10.56 111 R H1821+643 0.3315
PSZ1 G180.25+21.03 10.54 111 R RXC J0717.5+3745, MCS J0717.5+3745 2 0.546
PSZ1 G053.52+59.52 10.46 111 Y 31.24 RXC J1510.1+3330, A2034 6 0.113
PSZ1 G125.34-08.65 10.22 111 Y 12.26 RXC J0107.7+5408, ZwCl 0104+5350 0.1066
PSZ1 G124.20-36.47 10.13 111 R RXC J0055.9+2622, A115 4 0.1971
PSZ1 G112.48+57.02 9.97 111 LZ RXC J1336.1+5912, A1767 0.0701
PSZ1 G049.22+30.84 9.90 111 M 1.61 RXC J1720.1+2637 5 0.1644
PSZ1 G226.19+76.78 9.79 111 Y 25.52 RXC J1155.3+2324, A1413 5, 6 0.1427
PSZ1 G067.36+10.74 9.61 111 Y 10.47 RXC J1916.1+3525 0.209
PSZ1 G056.79+36.30 9.58 111 LZ RXC J1702.7+3403, A2244 0.0953
PSZ1 G084.47+12.63 9.54 111 Y 4.75 RXC J1948.3+5113 0.185
PSZ1 G166.11+43.40 9.53 111 Y 27.21 RXC J0917.8+5143, A773 2, 5, 6 0.2172
PSZ1 G139.17+56.37 9.48 111 R RXC J1142.5+5832, A1351, MCS J1142.4+5831 0.322
PSZ1 G167.64+17.63 9.43 111 Y 4.74 RXC J0638.1+4747, ZwCl 0634+4750, ZwCl 1133 0.174
PSZ1 G057.63+34.92 9.03 111 LZ RXC J1709.8+3426, A2249 0.0802
PSZ1 G113.84+44.33 8.98 111 Y 3.10 RXC J1414.2+7115, A1895 0.225
PSZ1 G046.90+56.48 8.96 111 M 0.88 RXC J1524.1+2955, A2069 0.1145
PSZ1 G077.89-26.62 8.74 111 Y 35.33 RXC J2200.8+2058, A2409 5, 6 0.147
PSZ1 G139.61+24.20 8.66 111 Y 27.08 6 0.2671
PSZ1 G118.58+28.57 8.57 111 Y 4.83 RXC J1723.7+8553, A2294 0.178
PSZ1 G071.21+28.86 8.46 011 Y 12.60 RXC J1752.0+4440, MCS J1752.0+4440 0.366
PSZ1 G125.72+53.87 8.45 111 R RXC J1236.9+6311, A1576, MCS J1236.9+6311 0.3019
PSZ1 G098.12+30.30 8.45 111 LZ RXC J1754.6+6803, ZwCl 1754+680 0.077
PSZ1 G165.06+54.13 8.44 111 Y 16.86 RXC J1023.6+4907, A990 5, 6 0.144
PSZ1 G180.56+76.66 8.43 111 Y 7.13 RXC J1157.3+3336, A1423 5 0.2138
PSZ1 G048.08+57.17 8.36 101 LZ RXC J1521.2+3038, A2061 0.0777
PSZ1 G157.32-26.77 8.35 111 Y 25.87 RXC J0308.9+2645, MCS J0308.9+2645 2 0.356
PSZ1 G163.69+53.52 8.26 111 Y 5.10 RXC J1022.5+5006, A980 0.158
PSZ1 G157.44+30.34 8.19 011 Y 32.51 [ATZ98] B100, RXC J0748.7+5941 6
PSZ1 G143.28+65.22 8.19 111 Y 5.85 RXC J1159.2+4947, A1430 0.211
PSZ1 G046.09+27.16 8.19 111 R RXC J1731.6+2251, MCS J1731.6+2252 0.389
PSZ1 G229.70+77.97 8.18 111 R RXC J1201.3+2306, A1443 0.269
PSZ1 G132.49-17.29 8.09 111 Y 33.24 RXC J0142.9+4438 0.341
PSZ1 G114.78-33.72 7.92 111 LZ RXC J0020.6+2840, A21 0.094
PSZ1 G088.83-12.99 7.70 111 R ClG 2153.8+3746 0.292
PSZ1 G150.56+58.32 7.61 111 Y 8.63 RXC J1115.2+5320, XMMXCS J1115.2+5319, MCS J1115.2+5320 7 0.47
PSZ1 G114.29+64.91 7.48 111 Y 6.48 RXC J1315.1+5149, A1703 0.2836
PSZ1 G182.55+55.83 7.46 111 R RXC J1017.0+3902, A963 0.206
PSZ1 G134.73+48.89 7.41 111 SE RXC J1133.2+6622, A1302 0.116 63 mJy source at 17 arcmin causes artifacts in the SA map
PSZ1 G080.38+14.65 7.41 111 LZ RXC J1926.1+4832 0.098
PSZ1 G114.99+70.36 7.40 111 R RXC J1306.9+4633, A1682 0.2259
PSZ1 G091.82+26.11 7.26 111 SE 0.24
PSZ1 G083.30-31.01 7.26 111 Y 28.09 RXC J2228.6+2036 0.412
PSZ1 G161.39+26.24 7.24 111 LZ RXC J0721.3+5547, A576 0.0381
PSZ1 G060.12+11.42 7.22 111 Y 16.07
PSZ1 G207.87+81.31 7.19 111 Y 19.99 RXC J1212.3+2733, A1489 0.353
PSZ1 G085.98+26.69 7.13 111 M 2.89 RXC J1819.9+5710, A2302 0.179 Positional error increased to 5 arcmin to encompass visible decrement in map
PSZ1 G228.21+75.20 7.12 111 Y 112.81 RXC J1149.5+2224, MCS J1149.5+2223 6 0.545
PSZ1 G099.48+55.62 7.06 111 N 0.01 RXC J1428.4+5652, A1925 0.1051 Predicted σNW = 4.4;σtap = 6.9
PSZ1 G071.63+29.78 7.01 111 Y 3.01 RXC J1747.2+4512, ZwCl 8284, ZwCl 1745+4513 0.1565
PSZ1 G115.70+17.51 7.00 111 M 0.76
PSZ1 G133.56+69.05 6.97 111 Y 5.05 RXC J1229.0+4737, A1550 0.254
PSZ1 G359.99+78.04 6.96 111 R RXC J1334.1+2013, A1759 0.171
PSZ1 G140.67+29.44 6.94 111 Y 5.93 RXC J0741.7+7414, ZwCl 1370, ZwCl 0735+7421 0.2149
PSZ1 G318.61+83.80 6.93 001 SE 33 mJy source (extended to LA) at 10 arcmin leaves significant residuals in the SA map
PSZ1 G067.52+34.75 6.92 111 R RXC J1717.3+4226, ZwCl 8193, ZwCl 1715+4229 0.1754
PSZ1 G113.26-29.69 6.91 111 R RXC J0011.7+3225, A7 0.1073
PSZ1 G098.85-07.27 6.89 011 SE
PSZ1 G096.89+24.17 6.89 111 Y 3.54 ZwCl 1856+6616, PLCKESZ G096.87+24.21 0.3
PSZ1 G138.60-10.85 6.86 111 Y 6.15
PSZ1 G153.41+36.58 6.85 010 N 2.70 Predicted σNW = 3.0;σtap = 3.7
PSZ1 G146.37-15.57 6.83 111 LZ RXC J0254.4+4134, AWM7 0.0172
PSZ1 G148.20+23.49 6.77 111 Y 3.19
PSZ1 G121.09+57.02 6.72 111 Y 10.37 3, 6 0.3436
PSZ1 G118.46+39.31 6.67 111 Y 4.73 RXC J1354.6+7715 0.3967
PSZ1 G094.69+26.34 6.66 111 N 0.26 RXC J1832.5+6449 0.1623 Predicted σNW = 4.1;σtap = 5.3
PSZ1 G084.41-12.43 6.59 011 Y 15.82
PSZ1 G102.97-04.77 6.56 011 Y 4.27
PSZ1 G162.30-26.92 6.56 100 R
PSZ1 G109.14-28.02 6.56 111 SE WHL J358.303+33.2696 0.4709
PSZ1 G127.55+20.84 6.55 011 R
PSZ1 G100.18-29.68 6.54 111 R 0.485
PSZ1 G049.35+44.36 6.53 111 LZ RXC J1620.5+2953, A2175 0.0972
PSZ1 G063.80+11.42 6.53 111 Y 3.78
PSZ1 G098.96+24.87 6.52 111 LZ RXC J1853.9+6822 0.0928
PSZ1 G108.18-11.53 6.49 111 Y 16.62
PSZ1 G066.41+27.03 6.48 111 Y 16.80 WHL J269.219+40.1353 0.5699
PSZ1 G100.16+41.66 6.43 111 R RXC J1556.1+6621, A2146 5 0.2339
PSZ1 G068.23+15.20 6.42 011 LZ RXC J1857.6+3800 0.0567
PSZ1 G166.61+42.12 6.38 111 Y 3.79 RXC J0909.3+5133, A746 0.23225
PSZ1 G099.84+58.45 6.35 111 Y 29.56 WHL J213.697+54.7844 0.6305
PSZ1 G054.99+53.42 6.31 111 Y 16.98 RXC J1539.7+3424, A2111 4, 5 0.229
PSZ1 G136.94+59.46 6.31 111 LZ RXC J1200.3+5613, A1436 0.065
PSZ1 G057.91+27.62 6.30 111 LZ RXC J1744.2+3259, ZwCl 8276 0.0757
PSZ1 G105.25-17.96 6.29 111 R RXC J2320.2+4146 0.14
PSZ1 G195.60+44.03 6.27 111 R RXC J0920.4+3030, A781 5 0.2952
PSZ1 G068.32+81.81 6.27 111 SE RXC J1322.8+3138 0.3083 Extended source to south-east
PSZ1 G118.88+52.40 6.25 111 Y 21.80 RXC J1314.4+6434, A1704 5 0.22
PSZ1 G186.98+38.66 6.22 111 Y 4.68 RXC J0850.2+3603, ZwCl 1953 0.378
PSZ1 G083.62+85.08 6.17 111 R RXC J1305.9+3054, A1677 0.1832
PSZ1 G143.67+42.63 6.16 111 R RXC J1003.1+6709, A910 0.206
PSZ1 G192.19+56.12 6.14 111 M 0.22 RXC J1016.3+3338, A961 0.124
PSZ1 G135.03+36.03 6.12 111 Y 6.11 RXC J0947.2+7623, MCS J0947.2+7623 0.345
PSZ1 G074.75-24.59 6.10 111 N 2.58 ZwCl 2143+2014 0.25 Predicted σNW = 7.7;σtap = 9.2
PSZ1 G152.68+25.43 6.10 111 LZ RXC J0704.4+6318, A566 0.098
PSZ1 G223.97+69.31 6.09 111 M 1.34 RXC J1123.9+2129, A1246 0.1904
PSZ1 G184.70+28.92 6.06 101 Y 20.64 RXC J0800.9+3602, A611 2, 4, 5 0.288
PSZ1 G040.63+77.13 6.05 111 LZ RXC J1349.3+2806, A1800 0.0748
PSZ1 G131.02+29.98 6.02 111 M 2.98 RXC J0825.7+8218, A625 0.2
PSZ1 G171.01+39.44 6.01 111 Y 27.90 0.5131
PSZ1 G050.41+31.18 5.98 111 Y 10.30 RXC J1720.1+2740, A2259 4 0.164
PSZ1 G153.56+36.23 5.96 110 M 0.64
PSZ1 G205.85+73.77 5.96 111 Y 17.84 WHL J174.518+27.9773 0.4474
PSZ1 G031.94+78.71 5.95 111 LZ RXC J1341.8+2622 0.0724
PSZ1 G187.53+21.92 5.88 111 Y 12.52 RXC J0732.3+3137, A586 5 0.171
PSZ1 G201.50+30.63 5.87 111 Y 15.32 ZwCl 0824+2244 0.287
PSZ1 G096.87+52.48 5.85 111 M 1.25 RXC J1452.9+5802, A1995 0.3179
PSZ1 G078.67+20.06 5.84 011 R 0.45
PSZ1 G040.06+74.94 5.84 111 LZ RXC J1359.2+2758, A1831 0.0612
PSZ1 G142.38+22.82 5.81 110 Y 7.22
PSZ1 G142.17+37.28 5.79 100 NN 5.05 Predicted σNW = 6.5;σtap = 8.6
PSZ1 G186.81+07.31 5.79 001 R WHL J97.3409+26.5054 0.2577
PSZ1 G105.91-38.39 5.77 111 Y 13.03 Positional uncertainty increased to 5 arcmin to encompass large decrement visible in map
PSZ1 G099.31+20.89 5.75 111 Y 7.41 RXC J1935.3+6734 0.1706
PSZ1 G137.56+53.88 5.73 001 NN 4.14 Predicted σNW = 17.3;σtap = 17.6
PSZ1 G189.27+59.24 5.73 111 R RXC J1031.7+3502, A1033 0.1259
PSZ1 G095.37+14.42 5.72 011 R 0.1188
PSZ1 G183.27+34.97 5.69 111 Y 9.64 WHL J127.437+38.4651 0.3919
PSZ1 G069.92-18.89 5.68 111 R 0.3076
PSZ1 G156.88+13.48 5.67 111 Y 7.57
PSZ1 G109.99+52.87 5.64 111 Y 17.90 RXC J1359.8+6231, ZwCl 6429, ZwCl 1358+6245 0.3259
PSZ1 G179.13+60.14 5.61 111 R RXC J1040.7+3956, A1068 0.1372
PSZ1 G107.32-31.51 5.60 111 N 2.03 RXC J2350.5+2929 0.1498 Predicted σNW = 7.0;σtap = 9.8
PSZ1 G084.62-15.86 5.59 111 M 1.47
PSZ1 G145.19+32.14 5.58 001 R RXC J0811.1+7002, A621 5 0.223
PSZ1 G127.36-10.69 5.58 100 R
PSZ1 G097.93+19.46 5.54 111 M 1.30 4C 65.28 0.25
PSZ1 G136.62-25.05 5.52 111 LZ RXC J0152.7+3609, A262 0.0163
PSZ1 G094.54+51.01 5.52 011 Y 24.04 WHL J227.050+57.9005 0.5392
PSZ1 G123.55-10.34 5.51 111 SE 0.1 Lots of extended emission across the centre of the map
PSZ1 G100.82+24.61 5.50 011 LZ RXC J1900.4+6958, A2315 0.0877
PSZ1 G103.58+24.78 5.48 011 SE 0.33 30 mJy source at 11 arcmin leaves substantial residuals at map centre
PSZ1 G092.46-35.25 5.47 100 SE Large amounts of extended emission present on the map after point source subtraction
PSZ1 G151.19+48.29 5.45 111 R RXC J1017.5+5934, A959 0.353
PSZ1 G109.88+27.94 5.44 111 Y 3.41 0.4
PSZ1 G134.31-06.57 5.44 011 Y 30.68
PSZ1 G172.64+65.29 5.43 111 LZ RXC J1111.6+4050 0.0794
PSZ1 G101.52-29.96 5.43 111 R 0.227
PSZ1 G168.34+69.73 5.42 011 SE A1319 0.288 Many radio sources close together and unresolved on the SA map, plus some extended emission, make source subtraction too difficult
PSZ1 G134.59+53.41 5.42 011 N 2.05 WHL J177.705+62.3301 0.3452 Predicted σNW = 19.3;σtap = 20.8
PSZ1 G135.03+54.38 5.40 001 SE WHL J178.058+61.3331 0.3169 Lots of extended emission across the centre of the map
PSZ1 G106.49-10.43 5.40 110 R
PSZ1 G188.41+07.04 5.39 001 LZ RXC J0631.3+2500, ZwCl 0628+2502 0.081
PSZ1 G108.13-09.21 5.39 110 Y 29.88
PSZ1 G090.82+44.13 5.37 110 N 0.97 ZwCl 1602+5917 0.2544 Predicted σNW = 2.4;σtap = 2.2
PSZ1 G127.02+26.21 5.37 111 M 1.98
PSZ1 G164.63+46.37 5.36 111 M 0.93 ZwCl 0934+5216, PLCKESZ G164.61+46.38 0.3605
PSZ1 G085.71+10.67 5.35 001 R
PSZ1 G050.46+67.54 5.35 111 N 2.30 RXC J1432.4+3137, A1930 0.1313 Predicted σNW = 11.1;σtap = 15.1
PSZ1 G137.51-10.01 5.33 010 R
PSZ1 G098.64+23.20 5.33 011 Y 5.57 RXC J1910.4+6741 0.2471
PSZ1 G060.50+26.94 5.33 110 R RXC J1750.2+3504 0.1712
PSZ1 G169.80+26.10 5.32 010 N 1.46 Predicted σNW = 14.4;σtap = 16.1
PSZ1 G135.12+57.90 5.29 010 SE RXC J1201.9+5802, A1446 0.1031 Only observed on SA, 64 mJy source on pointing centre
PSZ1 G157.67+77.99 5.28 111 R WHL J184.380+36.6865 0.3732
PSZ1 G101.36+32.39 5.27 011 N 1.60 RXC J1727.4+7035 0.3059 Predicted σNW = 4.6;σtap = 5.8
PSZ1 G121.75+51.81 5.26 111 Y 119.16 ZwCl 1256+6537 0.23765 Lots of unsubtracted extended emission on the maps; the cluster is clearly detected, but parameter estimation may be unreliable
PSZ1 G130.26-26.53 5.25 010 SE ZwCl 0120+3538 0.2159
PSZ1 G084.85+20.63 5.25 111 Y 8.75 0.29
PSZ1 G149.38-36.86 5.25 111 Y 11.63 A344 0.1696
PSZ1 G138.11+42.03 5.24 011 R 0.4961
PSZ1 G198.50+46.01 5.24 111 M 1.01 ZwCl 0928+2904 0.222
PSZ1 G091.81-26.97 5.23 011 R RXC J2245.4+2808 0.3551
PSZ1 G031.91+67.94 5.23 100 N 0.29 Predicted σNW = 5.8;σtap = 6.5
PSZ1 G213.37+80.60 5.23 111 Y 22.50 WHL J182.349+26.6796 0.5586
PSZ1 G100.03+23.73 5.22 001 Y 8.84 RXC J1908.3+6903, A2317 0.2103
PSZ1 G135.92+76.21 5.22 010 N 2.91 Predicted σNW = 2.6;σtap = 4.0
PSZ1 G071.44+59.57 5.21 111 R RXC J1501.3+4220, ZwCl 7215, ZwCl 1459+4240 0.2917
PSZ1 G164.26+08.91 5.21 111 Y 14.38 WHL J85.8665+46.9358 0.2505
PSZ1 G084.84+35.04 5.21 111 N 0.66 RXC J1718.1+5639, ZwCl 8197 0.1138 Predicted σNW = 5.0;σtap = 5.3
PSZ1 G119.37+46.84 5.21 111 SE RXC J1320.0+7003, A1722, MCS J1319.9+7003 0.3275 Extended structure to the west not detected in LA map
PSZ1 G076.44+23.53 5.21 111 SE 0.1685
PSZ1 G077.71+26.72 5.20 011 LZ RXC J1811.0+4954, ZwCl 8338 0.0501
PSZ1 G183.26+12.25 5.20 011 N 1.52 Predicted σNW = 17.1;σtap = 18.2
PSZ1 G085.85+35.45 5.20 011 LZ RXC J1715.3+5724 0.0276
PSZ1 G114.98+19.10 5.19 010 N 0.75 Predicted σNW = 14.6;σtap = 17.0
PSZ1 G059.51+33.06 5.18 011 SE RXC J1720.2+3536, MCS J1720.2+3536 0.387 280 mJy source at 13 arcmin produces artifacts on SA map
PSZ1 G172.93+21.31 5.18 011 Y 4.86 0.3309
PSZ1 G091.93+35.48 5.18 100 N 2.80 Predicted σNW = 14.1;σtap = 12.4
PSZ1 G075.29+26.66 5.17 100 N 2.85 Predicted σNW = 17.3;σtap = 17.1
PSZ1 G175.89+24.24 5.16 010 N 0.65 ZwCl 0723+4239 0.19175 Predicted σNW = 2.7;σtap = 2.5
PSZ1 G144.86+25.09 5.15 111 Y 44.36 RXC J0647.8+7014, MCS J0647.6+7015 0.584
PSZ1 G123.72+34.65 5.14 100 R RXC J1231.3+8225 0.2053
PSZ1 G197.13+33.46 5.13 110 R WHL J128.694+26.9757 0.4561
PSZ1 G122.98-35.52 5.11 001 Y 11.74 RXC J0051.6+2720 0.3615
PSZ1 G053.50+09.56 5.11 101 NN 4.20 Predicted σNW = 15.9;σtap = 19.3
PSZ1 G045.07+67.80 5.11 100 N 2.05 A1929 0.2191 Predicted σNW = 13.8;σtap = 13.4
PSZ1 G116.79-09.82 5.11 011 R ZwCl 0008+5215 0.104
PSZ1 G189.29+07.44 5.10 001 R
PSZ1 G103.16-14.95 5.08 110 SE
PSZ1 G157.84+21.23 5.08 111 M 2.15
PSZ1 G048.09+27.18 5.07 111 M 1.04 0.73608
PSZ1 G087.47+37.65 5.07 010 R 0.1132
PSZ1 G111.74+70.35 5.07 111 M 1.06 RXC J1313.1+4616, A1697 0.183
PSZ1 G066.20+12.87 5.06 001 N 0.95 0.23 Predicted σNW = 9.3;σtap = 11.2
PSZ1 G045.85+57.71 5.06 111 Y 10.15 0.611
PSZ1 G079.33+28.33 5.06 011 SE ZwCl 1801+5136 0.2036 Too many radio sources near the cluster centre to be sure of a non-detection
PSZ1 G097.52-14.92 5.06 010 Y 35.39 Bright, extended radio galaxy at about 10 arcmin removed from the SA data manually using CLEAN components leaving significant residuals in the source-subtracted map; cluster is clearly detected but parameter estimation is suspect
PSZ1 G118.06+31.10 5.05 011 SE Extended emission near the cluster centre
PSZ1 G056.13+28.06 5.05 011 Y 4.13 WHL J265.066+31.6026 0.426
PSZ1 G083.35+76.41 5.03 011 R
PSZ1 G073.64+36.49 5.03 001 N 0.05 0.56 Predicted σNW = 21.1;σtap = 22.2
PSZ1 G129.81+16.85 5.03 100 Y 3.91 0.41159
PSZ1 G134.64-11.77 5.02 111 Y 31.69 66 mJy source at 10 arcmin leaves residuals in the source-subtracted map; cluster is clearly detected but parameter estimation is suspect
PSZ1 G178.10+18.58 5.01 101 SE
PSZ1 G165.41+66.17 5.00 111 M 1.96 WHL J170.907+43.0578 0.1957
PSZ1 G099.48+37.72 5.00 101 M 0.79 RXC J1634.6+6738, A2216 0.1668

Notes. The rejection reason (LZ = low redshift, R = rejected by automated point-source criteria, SE = rejected manually for difficult source environment) or detection category (Y = clear detection, M = moderate detection, N = non-detection, NN = clear non-detection) is given in each case. Also given is the Planck S/N and the pipelines detecting the cluster (e.g. 110 indicates that the cluster was detected by MMF3, MMF1 but not PwS). Redshifts are taken from the Planck 2013 SZ catalogue. Some aliases for previously-known clusters are given from: Zwicky (1937, and references therein), Abell (1958), Zwicky et al. (1961), Gower et al. (1967), Albert et al. (1977), Fetisova (1981), Pravdo & Marshall (1984), Appenzeller et al. (1998), Voges et al. (1999), Ebeling et al. (2001), Ebeling et al. (2002), Wen et al. (2009), Piffaretti et al. (2011, and references therein), Mehrtens et al. (2012), Wen et al. (2012), Planck Collaboration VIII (2011). Reference numbers refer to previously published AMI analyses, (1) Barker et al. (2006); (2) Hurley-Walker et al. (2011); (3) Zwart et al. (2011); (4) Hurley-Walker et al. (2012); (5) Rodríguez-Gonzálvez et al. (2012); (6) AP2013; (7) Shimwell et al. (2013). is the Bayesian evidence difference. For non-detections, predicted S/N ratios in the naturally-weighted (σNW) and uv-tapered (σtap) maps are also given based on the Planck mean posterior parameter values.

Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.

Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.

Initial download of the metrics may take a while.