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СЦИНТИЛЛЯТОРЫ НЕОРГАНИЧЕСКИЕ  И ИХ СВОЙСТВА*

Formula Mechanism Density
(g/cc)
Luminosity
(photons/MeV)
Decay Time
(ns)
Emission Peak
(nm)
Energy Resolution
(% fwhm @ 662 keV)
BaF2 CV 4.88   0.12 (15%); 0.78 (85%)    
BaF2:Ce Ce3+ 4.88   4 (12%); 28 (78%) 342-358  
Bi4Ge3O12 (BGO) Bi3+ 7.13   300 480  
Bi4Ge3O12 (BGO) Bi3+ 7.13   300 485  
Bi4Ge3O12 (BGO) Bi3+ 7.1   100 (12%) 300 (79%) 1000 (4%) 460  
Bi4Si3O12 (BSO) Bi3+ 6.80   105 ave 3.7 (7.5%); 28.8 (9.6%); 116.8 (87.5%) 470 24
CaF2:Ce Ce3+ 3.18   4 (3%); 14 (5%); 30 (92%) 318; 332  
CaWO4 CX 6.1   1,400 (30%); 9,200 (70%)    
CdS:In In3+ 4.8   <1 519  
CdS:In In3+ 4.8   0.2 520  
CdS:In,Te In3+, Te2- BT 4.8   3.3 630  
CdWO4 CX 7.9   8,900 480  
Cs2LiYCl6:Ce (CLYC) Ce3+ 3.3       5.1
Cs2NaCeCl6 Ce3+          
Cs2NaLuCl6:Ce Ce3+     1(1%); 55 (44%); 380(55%)    
Cs2NaLuI6:Ce Ce3+     30(100%)    
CsI SX 4.51       16.7
CsI:Tl Tl+ 4.51   980 530  
LaBO3:Bi Bi3+ 5.2   800 365  
LaBr3:Ce Ce3+ 5.1   rise time 9 ns ; decay time 26 ns    
LaBr3:Ce Ce3+ 5.1   rise time 0.2 ns ; decay time 17 ns    
LaBr3:Ce Ce3+ 5.1   26 (9 ns rise time)    
LaBr3:Ce Ce3+ 5.1   17 (<0.5 ns rise time)    
LaOCl:Bi Bi3+     1,600 345  
Li12LuGd(BO3)6 Ce3+     60(28%); 313(14%); 30,000 (58%) 400 19%
LiCaAlF6:Ce Ce3+ 3.0   50 280  
LiI:Eu Eu2+ 4.08   1,200    
LiYSiO4:Bi Bi3+       350  
Lu2SiO5:Ce (LSO) Ce3+ 7.4   7 (1%); 38.8 (99%)    
Lu2SiO5:Pr,Ca Pr3+ 7.4   6.9 (66%); 23.2 (34%) + slow    
LuOBr:Ce Ce3+ 7.6     403, 432  
LuOCl:Ce Ce3+ 7.2        
NaI(pure) SX 3.67       3.8
NaI:Tl Tl+ 3.67     415  
NaI:Tl Tl+ 3.67       5.6
PbCl2:Gd Gd3+ 5.9   1,350; 6,200   25.6
PbFCl K+ 7.11   360 550  
PbSO4 Pb2+ 6.4   7.2 (21%); 35 (32%); 104 (39%); 656 (5.5%)   35
PrF3 Pr3+ 6.3   510 394  
Rb2LiYI6:Ce Ce3+     71(53%); 400(31%); 1,400 (16%)    
ScBO3:Bi Bi3+ 3.5     300  
SrF2:Ce Ce3+ 4.3   4 (24%); 30 (76%) 340-350  
SrI2 SA 4.55   106; 511 560 5.28
SrI2:Eu Eu2+ 4.55   620 (0.5% Eu); 1650 (10% Eu) 429 (0.5% Eu); 436 (10% Eu)  
SrI2:Eu Eu2+ 4.55   123; 3,488 430 2.85
Ta2Zn3O8 SA 7.1   1,130 385  
ThBr4 SX 5.8     405  
ThCl4 SX 4.6     345  
Y2O3:Bi Bi3+ 5.0     410  
Y2WO6:Bi Bi3+     1,600 515  
Y3Al5O12:Ce (YAG) Ce3+ 4.55       3.5
Y3Al5O12:Ce (YAG) Ce3+ 4.55   119 + slow 300; 550  
Y3Al5O12:Ce (YAG) Ce3+ 4.55   85 + slow 550  
YAl3B4O12:Bi Bi3+ 3.7     290  
YAlO3:Ce (YAP) Ce3+ 5.35   26 (90%); 67 (10%)    
YAlO3:Ce (YAP) Ce3+ 5.35       4.4
YBO3:Bi Bi3+ 4.5   1,000 328  
YNb0.2Ta0.8O4 SA 7.16   320(38%); 2,430(62%) 440  
YNbO4:Bi Bi3+       465  
YOCl:Bi Bi3+     1,400 400  
YOF:Bi Bi3+       330  
YPO4:Bi Bi3+     700 342  
YVO4:Bi Bi3+     4,500 559  
ZnO:Ga Ga3+ 5.7   0.36 (35%); 0.82 (65%)    
ZnO:Ga Ga3+ 5.7   <1 385  
ZnWO4 CX 7.85   21,800 480  
ZnWO4 CX 7.85   700; 7,000; 25,000   8.5
ZnWO4 CX 7.85   1,000; 4,000; 25,000   10.7
BaI2:Eu Eu2+ 5.1 >30,000 < 1,000 420  
LaOCl:Ce Ce3+ 5.45 <700* 17 (15%); 106 (16%); 836 (15%) 420  
RbCl CV 2.8 1   190  
BaMgF4 CV 4.5 1,000   190; 220  
KYF4 CV 3.6 1,000 1.9 170  
TlCl(Be,I)   7.0 1,000 200 465 42
Ca3Ga3Si2TaO14 (CTGS) SA   1,200 80(56%); 630(44%) 340 26
Li6Y(BO3)3:Ce Ce3+   1,200   388; 419  
LiBaF3 CV 5.24 1,200 0.8 187; 225  
Cs3LuI6 SA 4.78 1,200 (0.5 us); 1,400 (10 us)   390; 608  
Bi4Si3O12:Ce (BSO) Bi3+ 6.80 1,200* 86 ave 2.8 (7.4%); 27.1 (9.2%); 99.8 (83.4%) 470 29
BaF2 CV 4.88 1,300 <1 ns 220  
LaMgB5O10:Ce Ce3+   1,300   310; 317  
RbLuP2O7:Ce Ce3+ 4.20 1,300 6.3 (23.2%); 24.0(76.8%) 393  
CaBPO5:Ce Ce3+ 3.2 1,310 19.5    
BaF2 CV 4.88 1,400 0.8 195; 220  
CsCaCl3 CV 2.9 1,400 < 1 250; 305  
CsY2F7:Ce Ce3+   1,400 32 333  
KCaF3 CV 3.0 1,400 < 2 140-190  
KMgF3 CV 3.2 1,400 1.3 140-190  
LiBaF3 CV 5.2 1,400 0.8 190; 230  
Cs3LuI6:Ce Ce3+ 4.78 1,400 (0.5 us); 1,500 (10 us)   429; 471  
LiBaF3 SX 5.24 1,600 6,000 300  
Cs3LaBr6 SA 4.55 1,600 (0.5 us); 2,100 (10 us) 250 (92%) 2,100 (8%) 394 13.6
Cs2LiYCl6 CV 3.31 1,700 4    
PbFCl Pb2+ 7.11 1,700 4; 35 392; 420  
BaCl2 SA 3.89 1,700 (10 us) 980 + slow 420; 475 17.4
BaP2O6:Eu Eu2+   1,900 169 ns (38%); 795 (52%) 380;470  
CsF CV 4.64 1,900 2-4 390  
(C6Hs(CH2)2NH3)2PbBr4 SX 2.5 10,000 9.4 + 200 437  
Ba2MgSi2O7:Eu Eu2+   10,000 280 ns (15%); 795 (80%) 505  
BaF2 SX 4.88 10,000 620 310  
CaHfO3:Ce Ce3+   10,000 33 ns (47%) + slow 439  
Cs2LiYCl6:Pr Pr3+ 3.31 10,000   315 15
GdBO3:Ce Ce3+ 6.3 10,000   385; 415  
KYP2O7:Ce Ce3+ 3.11 10,000 6.7 (22.6%); 23.2(77.4%) 380  
PbSO4 Pb2+ 6.4 10,000 1.85; 14.5; 125-150 340; 380  
YBO3:Ce Ce3+ 4.5 10,000   390; 415  
YOBr:Ce Ce3+ 5.06 10,000* 25 (76%); 59 (17%) 400; 445  
Cs2LiYCl6:Ce (CLYC) Ce3+ 3.31 10,200 (1us); 21,600 (10 us) 2,800 370  
K2LiYBr6:Ce Ce3+   10,400 30 (1%); 250 (30%); 1,900 (69%) 385; 420 22
Bi4Ge3O12 (BGO) Bi3+ 7.13 10,600     9.05
LuBO3:Ce (Calcite) Ce3+ 6.8 10,800 (0.5 us); 12,000 (10 us)      
CsBa2I5:Eu Eu2+ 4.9 102,000 384 (10%); 1,200 (58%); 14,000 (32%) 2.85 eV (45%); 2.7 eV (19%); 2.66 eV (36%) 2.55
SrI2:Eu Eu2+ 4.55 104,000 1,100 432 2.62
(Gd-Y)3Al5O12:Ce (GYAG) Ce3+ 6 11,000 90 + >1,000 550 8
Ba2B5O9Cl:Eu Eu2+   11,000 640 (71%) 420  
BaF2 SX 4.88 11,000     11.4
Cs2LiLuI6:Ce Ce3+   11,000 47 (30%); 220(32%); 1,400 (38%) 435; 478 10
LaNbO4 SA   11,000 2,900 (71%) 436  
Rb2LiYI6:Ce Ce3+   11,000 71 (31%); 400 53%); 1,400 (16%) 435; 480 28
NaGd(PO3)4:Ce Ce3+ 3.62 11,100   314, 333  
LuAlO3:Ce (LuAP) Ce3+ 8.34 11,300      
LuAlO3:Ce (LuAP) Ce3+ 8.34 11,400 16.5; 74 365  
Y3Al5O12:Ce (YAG) SX 4.55 11,610 100 260  
Ca4YO(BO3)3:Ce Ce3+   110   390; 420  
CaI2:Eu Eu2+ 3.96 110,000     8
CdF2 SA 6.6 1100 4.8 (29%); 24 (28%); 78 (43%) 420  
BaBr1.7I0.3 Eu2+   112,000 329(23%); 640(40%) 414  
LuI3:Ce Ce3+ 5.6 115,000 28 522  
SrI2:Eu Eu2+ 4.55 115,000 1,200 435 2.8
Polyvinylcarbazole (PVK) + diphenylanthracene (DPA) + bismuth tryphenyl organic   12,000 15 420 9
CdWO4 CX 7.9 12,200     8.0
Li2NaYBr6:Ce Ce3+   12,400 30 (3%); 560 (11%); 2,600 (86%) 383; 413 10
Lu3Al5O12:Pr Pr3+ 6.7 12,400      
Gd2SiO5:Ce (GSO) Ce3+ 6.71 12,500 56; 600 430 7.0
Lu3Al5O12:Ce (LuAG) Ce3+ 6.7 12,500      
SrI2:Eu Eu2+ 4.59 120,000 1,200 435 3.0
BaF2:Ce Ce3+ 4.88 13,000 47; 260 320  
La2Hf2O7:Ti Ti4+ 7.9 13,000 10,000 475  
Cs3Lu2I9:Ce Ce3+ 4.82 13,600 (0.5 us; 22,800 (10 us) 18 (2%); 42 (6%) 120 (40%); 510 (52%)   9
BaBr2:Ce Ce3+   13,600 (10 us) 1,700   10
Li6Gd(BO3)3:Ce Ce3+   14,000   385; 415  
KGd(PO3)4:Ce Ce3+ 3.52 14,100   325, 345  
CdWO4 CX 7.9 14,340     8.8
CaWO4 CX 6.1 14,400     6.3
YBa3B9O18 SA 3.9 1400 27 400  
Ba2YCl7:Ce Ce3+   15,000 18 (80%) 390; 414  
Ga2O3 SA   15,000 8; 977 380  
LiI:Eu Eu2+ 4.08 15,000   475 7.5
CaWO4 CX 6.1 15,000-25,000 8,000 425  
CdWO4 CX 7.9 15,300      
Y2O3 SX 5.04 15,480 28 370  
BaBr2:Eu Eu2+ 4.72 15,700 (10 us) 585 404 11.0
BaBr2:Eu Eu2+   15,700 (10 us) 585   11
CaWO4 CX 6.1 15,800     6.6
CdWO4 CX 7.9 15,800 13,000   8.3
YAlO3:Ce (YAP) Ce3+ 5.35 15,900      
Ba2ZnSi2O7:Eu Eu2+   16,000 665 ns (80%); 1,080 (18%) 505  
BaAl10MgO17:Eu Eu2+   16,000 315 ns (8%); 1,460 (74%) 459  
Cs3LaCl6:Ce Ce3+ 3.36 16,000 79(32%); 291(33%); 1243(28%) 383; 415 8.6
KLuP2O7:Ce Ce3+ 3.87 16,000 6.3 (14.9%); 27.2(85.1%) 394  
Lu3Al5O12:Pr Pr3+ 6.7 16,000 26 308  
Lu3Al5O12:Pr Pr3+ 6.7 16,000 17.2 (30%); 53 (16%); 1,590 (54%) 310 5.0
SrI2:Ce/Na Ce3+ 4.59 16,000 27 (25%); 450 (75%) 404; 435 6.4
Y3Al5O12:Pr Pr3+ 6.7 16,000 14 320  
YAlO3:Ce (YAP) Ce3+ 5.35 16,200 27 347  
Gd3Y3Al10O24:Ce (GYAG) Ce3+   16,500     11.2
CeCl3(CH3OH)4 Ce3+   16,600 64.4 (93%); 1,660 (7%) 364 11.4
Y3Al5O12:Ce (YAG) Ce3+ 4.55 16,700      
CdS:Te Te2- BX 4.8 17,000 270+slow 640; 580  
Lu3Al5O12:Pr Pr3+ 6.7 17,000 21 310  
Cs2BaI4:Eu Eu2+ 4.5 17,000 (est.)      
GdOCl:Ce Ce3+ 6.66 17,000* 25 (63%); 76 (27%); 6 risetime 400  
LuPO4:Ce Ce3+ 6.53 17,200 25 360  
CdF2 SX 6.4 170 7.1 520;580  
KLuF4 CV 5.2 170 1.3 170-200  
RbF CV 3.6 1700 1.3 203; 234  
Ba3B(PO4)3:Eu Eu2+   18,000 334 ns (13%); 820 (36%); 9,300 (39%) 418  
CsCaCl3:Eu Eu2+ 3.00 18,000 5,050 450 8.9
YAlO3:Ce (YAP) Ce3+ 5.35 18,000      
Cs3CeCl6 Ce3+ 3.4 19,000 50 (50%); 300 (50%) 400 8.4
Lu3Al5O12:Pr Pr3+ 6.7 19,000 20 310 4.6
CsI:Eu Eu2+ 4.51 19,100      
BaBr2 SA 4.72 19,300 (10 us) 2,200 + slow 425; 475 5.4
BaCl2:Eu Eu2+ 3.89 19,400 (10 us) 390 402 8.8
BaCl2:Eu Eu2+ 3.89 19,400 (10 us) 390   8.8
CsCe2Cl7:Ce Ce3+ 3.6 19,470 66 (87.3%); 351 (12.7%)   12
CeBr3 + isobutanol Ce3+   1920   360  
BaF2 CV 4.88 2,000 0.6 220  
Bi4Si3O12 (BSO) Bi3+ 6.80 2,000 100 480 30
BiSrO2Cl Bi3+ 6.10 2,000 50 (28%) 200 (35%) 300 (14%) 431  
CsF CV 4.1 2,000 2.9 390  
LaF3:Nd Nd3+ 5.94 2,000 6.3 173  
BaCl2:Ce Ce3+ 3.89 2,000 (0.5 us); 5,200 (10 us) 7 (6%); 190 (11%); 1,500 (83%) 349; 373 16.2
BaF2:Ce Ce3+ 4.88 2,200 50 360  
BiBaO2Br Bi3+ 6.71 2,200 100 (21%) 300 (54%) 700 (12%) 500  
LaF3:Ce Ce3+ 5.9 2,200 3; 26.5 290; 340  
Cs3Gd2I9:Ce Ce3+ 4.73 2,200 (0.5 us); 2,600 (10 us)      
Lu2SiO5:Pr Pr3+ 7.4 2,200 + slow 26 247  
Al2O3:Ti   3.98 2,300   290(33%); 730(67%)  
Al2O3 Tl+   2,300 (77K) 138 (300K) + slow 290 (30%); 420 (70%)  
CeF3 Ce3+ 6.16 2,400      
NaGdCl4   3.44 2,400   305; 345; 365  
Ba2P2O7:Eu Eu2+   2,500 288 ns (19%); 632 (78%) 421  
GdNb0.2Ta0.8O4 SA 8.37 2,600 12(100%) 450  
LiGd(PO3)4:Ce Ce3+ 3.54 2,600   310, 329  
BaI2 SA 5.15 2,600 (0.5 us); 4,600 (10 us) 590 (71%); 2,200 (29%) 550  
BaI2:Ce SA 5.15 2,600 (10 us) 610 + slow 530  
Gd2SiO5:Ce (GSO) Ce3+ 6.71 2,800     7.8
CsBr CV 4.4 20 0.07 250  
Ba5Si8O21:Eu Eu2+   20,000 305 ns (17%); 852 (81%) 453; 511  
Cs2LiGdCl6:Ce Ce3+ 3.7 20,000 129 ns (51%), 573 ns (32%), 8.9 ms (17%) 360; 460 5
Cs2LiYCl6:Ce (CLYC) Ce3+   20,000   390 4.5
Cs3LaCl6:Ce Ce3+ 3.27 20,000 56 (75%); 380 (25%) 400 9
Lu(2-2x)Gd(2x)SiO5:Ce (LGSO) Ce3+   20,000     12.4
Lu3Al5O12:Pr Pr3+ 6.7 20,000 20 (68%); 455 (32%)    
NaBaPO4:Eu Eu2+   20,000 355 ns (32%); 885 (64%) 450; 610  
YBr3:Ce Ce3+   20,000 36 (79%); 450 (21%) 422  
Bi4Ge3O12 (BGO) Bi3+ 7.13 20,000*     7.2*
YAlO3:Ce (YAP) Ce3+ 5.35 20,100 24.2 365  
LuAlO3:Ce (LuAP) Ce3+ 8.34 20,500 17.9 365  
GdB3O6:Ce Gd3+   200   311  
PbWO4 CX 8.28 200 6 420  
LaI3:Ce Ce3+ 5.6 200-300 1-2 452; 502  
Cs2LiYCl6:Ce (CLYC) Ce3+ 3.31 21,000 35 + slow 490 6
Cs2NaGdCl6:Ce Ce3+ 3.50 21,000 69 ns (34%); 503 ns (37%); 3,200 (29%) 378; 400 nm 4.8%
NaGd(PO3)4:Ce Ce3+ 3.62 21,000 12.4 313; 332  
PrBr3:Ce Ce3+ 5.3 21,000 8 + 22 365; 395  
Y2SiO5:Ce/Ca (YSO) Ce3+ 4.45 21,200      
Cs2LiYCl6:Ce (CLYC) Ce3+ 3.31 21,600     8.0
YAlO3:Ce (YAP) Ce3+ 5.35 21,600      
Ba2SiO4:Eu Eu2+   22,000 242; 668 502; 525  
BaI2:Eu Eu2+ 5.13 22,000 317(36%); 646(42%) 426  
Cs2LiCeCl6 Ce3+ 3.4 22,000 101(42%); 557(35%); 2,900(23%) 385, 405 5.5
LaBr(3-x)I(x):Ce Ce3+ 5.60 22,000(0.5us); 22,000(10 us) 12 460; 510 35.9
Lu2SiO5:Ce (LSO) Ce3+ 7.4 22,200      
CaLaB7O13:Ce Ce3+   220   291; 309; 330; 360  
Lu2Si2O7:Ce (LPS) Ce3+ 6.2 23,000 30 380  
Rb2LiYBr6:Ce Ce3+ 3.82 23,000 42 (3%); 140 (23%); 1,600 (74%) 385; 420 4.7
Rb2LiYBr6:Ce Ce3+   23,000 42 (3%); 140 (23%); 1,600 (74%) 381; 414 4.7
K2LaCl5:Ce Ce3+ 2.9 23,000 (0.5 us); 30,000 (10 us)   344; 372  
Rb2LiCeCl6 Ce3+ 3.10 23,100 71 (85%); 405 (15%) 370 7.9
Y2SiO5:Ce (YSO) Ce3+ 4.45 23,400      
PbCl2 Pb2+ 5.9 230 2.9 (41%); 20 (32%); 179 (27%) 500  
CaF2:Eu Eu2+ 3.18 24,000      
Cs2LiYBr6:Ce Ce3+ 4.15 24,000 85 (39%); 2,500   7.0
Y2SiO5:Ce (YSO) Ce3+ 4.45 24,000     9.4
CsGd(PO3)4:Ce Ce3+ 4.07 24,400   336, 358  
Cs3GdCl6:Ce Ce3+ 3.56 24,500 39 (7%); 129 (12%); 462 (15%); 2,110 (36%); >6,000 (30%) 382; 407 4.5
Ba3P4O13:Eu Eu2+   25,000 288 ns (15%); 806 (83%) 440  
Cs2LiGdBr6:Ce Ce3+ 4.41 25,000 73 (63%); 542 (14%); 3,900 (23%) 392; 420 8.6
Cs2NaCeBr6 Ce3+ 4.0 25,000 140 us (94%); 880 us (6%) 380-466 6.7
Cs2NaCeBr6 Ce3+ 4.25 25,000 140(94%); 800(6%) 377, 400 6.7
SrBr2:Eu Eu2+ 4.25 25,000     8
Cs2BaBr4:Eu Eu2+ 4.4 25,000 (est.)      
Cs2ZrCl6 SA   25,100 1,500; 7,500 440; 479  
Lu2SiO5:Ce/Ca (LSO) Ce3+ 7.4 25,400      
PbWO4:Pr Pr3+ 8.2 250 2,000 480, 620, 640  
CsCe2Cl7 Ce3+ 3.6 26,000 50 (52%); 210 (47%) 385 7.5
Lu2Si2O7:Ce (LPS) Ce3+ 6.2 26,000 38 378  
Lu2SiO5:Ce (LSO) Ce3+ 7.4 26,000     8.4
LuBr3:Ce Ce3+ 5.2 26,000 32 + slow    
Cs2NaLaCl6:Ce Ce3+ 3.26 26,400 66(18%); 340(18%); 1620(45%) 373; 405 4.4
K3Lu(PO4)2:Ce Ce3+ 3.9 26,500 34 (81%); 1200 (19%) 390 17
(Lu,Y)2SiO5:Ce (LYSO) Ce3+ 7.1 27,000   425  
Ba3(PO4)2:Eu Eu2+   27,000 265 ns (23%); 620 (74%) 420  
CdWO4 SA 7.9 27,000 12,000 495  
Cs2NaGdCl6:Ce Ce3+ 3.52 27,000 110 (15%); 353 (18%); 1,572 (24%);>6,000 (44%) 375; 403 4.0
Lu2SiO5:Ce (LSO) Ce3+ 7.4 27,000 40 420 7.9
CsI:In In+ 4.51 27,000 (12 us) 1,900 545 9.5
Lu2SiO5:Ce (LSO) Ce3+ 7.4 27,300      
Cs2HfCl6 SA   27,500 2,200; 8,400 375; 435  
KLu2F7 CV 7,5 270 < 2 165  
LaF3:Nd Nd3+ 5.94 270   173  
CsCaBr3:Eu Eu2+   28,000 145(0.43%); 6,097(89.8%); 28,000(9.8%) 447 9.3
Lu2S3:Ce Ce3+ 6.25 28,000 32 592  
Lu2SiO5:Ce Ce3+ 7.4 28,000      
GdBr3 Ce3+ 4.55 28,000 (0.5 us); 44,000 (10 us) 20 (26%) 212 (65%) 13,500 (9%) 460  
Cs2LiCeBr6 Ce3+ 4.18 28,000 (10 us) 86(76%); 444 (8%); 3,800(16%) 400; 418 7.4
ZnSe:Te Te2- BX 5.42 28,300   610 5.4
K2LaI5:Ce Ce3+ 4.4 29,000   340; 380 5.1
Lu2SiO5:Ce (LSO) Ce3+ 7.4 29,000   425  
LuBO3:Ce (vaderite) Ce3+ 7.4 3,000 (0.5 us); 3,900 (10 us)      
LaOBr:Ce Ce3+ 6.17 3,000* 1 (11%); 4 (26%); 13 (35%) 425  
BaCl2:Ce Ce3+ 3.89 3,100 (10 us) 14 (10%); 90 (40%); 1,400 (50%)   14
Ca5(PO4)3F:Ce Ce3+ 3.20 3,200   354, 412  
YOCl:Ce Ce3+ 4.64 3,500* 20 (83%) 380  
LiLuF4:Ce Ce3+   3,600 320 310; 335  
BaI2:Eu Eu2+ 5.15 3,800 (10 us) 510 + slow 425  
BaI2:Eu Eu2+   3,800 (10 us) 510 (32%) + slow    
BaF2 SX 4.88 3,900 340; 920 310  
SrAl2O4:Ce Ce3+   3,900 30 380  
Ba2GdCl7:Ce Ce3+   30,000 47(6%); 260 (11%); 1650 (20%) + slow 355; 377  
BaSi2O5;Eu Eu2+   30,000 2,800 ns (98%) 520  
K2CeCl5 Ce3+ 2.9 30,000   370 5.8
Li3TaO4 SA   30,000 6,100 (67%) 398  
Polyvinylcarbazole (PVK) + diphenylanthracene (DPA) + bismuth tryphenyl organic   30,000 12,000 500 7
Zn3Ta2O8 SA   30,000 270 (18%); 1,060 (80%) 385  
Cs2BaCl4:Eu Eu2+ 3.75 30,000 (est.)      
Gd2Si2O7:Ce (GPS) Ce3+ 5.5 30,000-40,000 46 372; 394 6
Cs2LiGdBr6:Ce Ce3+ 4.41 30,500 39 (43%); 587 (31%); 1,100 (26%) 392; 443  
BaBrCl:Eu Eu2+ 4.5 30,800     4.25
HfF4 SA 7.1 300 29 350  
K2YF5 CV 3.6 300 1.3 170  
PbWO4 CX 8.2 300 2.5 (25%); 11 (29%); 98 (46%) 490  
CeBr3 + tert-butanol Ce3+   3095   360 12.6
HfO2 SA 9.68 31,000 9.500 480  
CsSrBr3:Eu Eu2+   31,300 2,500 442 9
Cs3LaBr6:Ce Ce3+ 3.82 32,500 44(17%); 1214(18%); 399(20%); 2230(31%) 393; 425 4.9
CeBr3 + 1-propanol Ce3+   3218   365  
Lu2.25Y0.75Al5O12:Pr Pr3+ 6.2 33,000     4.4
Lu2SiO5:Ce (LSO) Ce3+ 7.4 33,000 40 420  
Rb2LiCeBr6 Ce3+ 4.6 33,000 55 (87%); 284 (13%) 390 6.3
Rb2LiLaBr6:Ce Ce3+   33,000 26 (5%); 310 (37%); 1,100 (58%) 363; 387 4.8
CsSrCl3:Eu Eu2+   33,400 2,700 448 11.5
CsBa2I5:Na Na+ 4.5 33,500 39(7%); 183(36%); 995(37%) 430 7.9
YMgB5O10:Ce Ce3+   330   305  
Li3YCl6:Ce Ce3+ 2.45 3305 (1 us); 6185 (10 us) 250; 2,300 360; 385  
LaCl3 SX 3.8 34,000 3,480 400  
Lu1.8Y0.2SiO5:Ce (LYSO) Ce3+ 7.1 34,000 41 + slow 397  
Rb2CeBr5 Ce3+ 4.26 34,000 56.1 (98.8%); 329.9 (1.2%) 390.5 6.9
GdOBr:Ce Ce3+ 6.82 34,000* 30 (100%); 10 risetime 405; 445  
Sr5(PO4)3F:Ce Ce3+ 4.17 340   342  
Ba2Si3O8:Eu Eu2+   35,000 355 ns (10%); 1,400 (90%) 505  
BaGdCl5:Ce Ce3+   35,000 27 (11%); 87 (9%); 315 (17%); 1550 (19%) 363; 389  
BaKPO4:Eu Eu2+   35,000 275 ns (31%); 645 (55%) 425  
Cs2LiLaCl6:Ce (CLLC) Ce3+   35,000   400 3.4
Cs3LaBr6:Ce Ce3+ 3.99 35,000 71 (72%); 437 (28%) 410 8
CsBa2I5:In In3+ 4.5 35,000 32(2%); 162(8%); 1980(43%) 540 7.1
CsCe2Br7:Ce Ce3+ 4.0 35,562 78 (52.0%); 316 (31.6%); 1723(16.4%) 390; 420; 475 7
CaBr2:Eu Eu2+ 3.35 36,000 2,500 448 9.1
LiGdCl4   3.70 36,000   310; 340; 360  
Cs2NaGdBr6:Ce Ce3+ 4.18 36,800 72 (67%); 266 (22%); 698 (11%) 393; 422 5.1
Ba3Gd(BO3)3:Ce Ce3+ 5.3 370   313; 418  
LaOBr:Ce Ce3+   38% of ZnS:Ag 38 460  
BaI2:Eu Eu2+ 5.15 38,000 513 (95%) 426 5.6
CsI:Na Na+ 4.51 38,000      
GdCl3:Ce Ce3+ 4.54 38,000   350; 370  
SrI2 SA 4.55 38,000   560 6.7
SrI2:Yb Yb2+ 4.6 38,400 710; 77,000 418; 446 12.5
CsCaI3:Eu Eu2+ 4.06 38,500 1,720 450 8.0
Lu2SiO5:Ce,Ca Ce3+ 7.4 38,800 36.7 420 7.7
CsI:CO3 SA 4.51 39,000 1,760 410; 500 8.35
NaGdCl4:Ce Ce3+ 3.44 39,400 26 350; 370  
CeF3 Ce3+ 6.16 4,000 2; 31 310; 340  
CeF3 Ce3+ 6.16 4,000 27 340 20
CeP5O14 Ce3+   4,000      
MgSr2Si2O7:Eu Eu2+   4,000 186 ns (50%); 435 (31%) 465  
Cs3Lu2I9 SA 4.82 4,000 (0.5 us); 6,600 (10 us) 770 390; 608 19.2
LuScBO3:Ce Ce3+   4,200 31 370  
LuBO3:Pr (Calcite) Pr3+ 6.8 4,200 (0.5 us); 7,300 (10 us)      
LuBO3:Pr (vaderite) Pr3+ 7.4 4,200 (0.5 us); 7,300 (10 us)      
CeF3 Ce3+ 6.16 4,400 3; 26.5    
LiInSe2     4,400 31(49%); 143(51%)    
LaCeF6 Ce3+   4,500      
YCl3:Ce Ce3+   4,500   390; 410  
BaI2:Ce Ce3+   4,600 (10 us0 590 (71%); 2,200 (29%)    
PbSO4 Pb2+ 6.4 4,900 1.8; 19; 95; 425 335  
LaOCl:Ce Ce3+   4.3% of ZnS:Ag 100 435  
Ba2SiO4:Eu Eu2+   40,000 242 ns (17%); 668 (81%) 505  
BaHfO3:Ce Ce3+ 8.3 40,000 25 + slow 400  
BaI2:Eu Eu2+ 5.1 40,000     8
CsBa2I5:Tl Tl+ 4.5 40,000 28(1%); 414(42%); 1241(24%) 500 7.1
PbI2 d-a 6.16 40,000 10% in first ns 520  
SrHfO3:Ce Ce3+ 6.7 40,000 42 + slow 410  
SrI2:Eu Eu2+ 4.6 40,000   430  
K2LaBr5:Ce Ce3+ 3.9 40,000 (10 us) 50 359; 391  
CsSrBr3:Eu Eu2+ 3.8 40,000 (est.)      
LaCl3:Ce Ce3+ 3.8 40,900      
Ba5(PO4)3F:Ce Ce3+ 4.76 400   358  
BaLu2F8 CV 6.94 400 1+slow 313  
CaI2:Tl Tl+ 3.96 42,000 1,100 420  
LaBr(3-x)I(x):Ce Ce3+ 5.47 42,000(0.5 us); 45,000(10 us) 31(70%); 244(30%) 400; 434 4.1
Gd3Al2Ga3O12:Ce Ce3+   42,217 52.8(73%); 282(27%    
CsI:Na Na+ 4.51 43,000     7.4
NaI:Tl Tl+ 3.67 43,000      
GdI3:Ce Ce3+ 5.2 44,000 45 (70%); 250 (24%); 2,000 (6%) 560 4.7
NaI:Tl Tl+ 3.67 44,000   415  
NaI:Tl, Eu Tl+, Eu2+ 3.67 44,000     6.3
YGd2Ga3Al2O12:Ce Ce3+   44,000 56.9( 66%); 236 (34%)   8.2
NaI:Tl Tl+ 3.67 45,000   415 7.1
NaI:Tl Tl+ 3.67 45,000      
Gd3Al3Ga2O12:Ce Ce3+   45,931 221 (100%)    
CeCl3 Ce3+ 3.9 46,000 25 + slow 350 3.4
Cs2NaLaBr6:Ce Ce3+ 3.93 46,000 48(18%); 205(21%); 854(23%); 4021(36%) 385; 413 3.9
CsI:Na Na+ 4.51 46,000      
Cs3GdBr6:Ce Ce3+ 4.14 47,000 72 (26%); 270 (25%); 1,421 (26%); >6,000 (23%) 396; 425 4.0
SrBrI:Eu Eu2+ 4.9 47,000 (est.)      
Cs2NaGdBr6:Ce Ce3+ 4.19 48,000 65 (48%); 193 (24%); 864 (8%); >6,000 (20%) 389; 418 3.3
LaCl3:Ce Ce3+ 3.8 48,000   350  
BaBr2:Eu Eu2+ 4.78 49,000 35 (8%); 415 (47%); 814 (44%) 408 6.9
CsI:Na Na+ 4.51 49,000      
CsI:Na Na+ 4.51 49,000   425  
LaCl3:Ce Ce3+ 3.8 49,000 25 + slow 330; 352 3.1
K2LaCl5:Ce Ce3+ 2.89 49,300; 22,600 (0.5 us) 80 + slow 347; 372  
BaAl12O19:Eu Eu2+   5,000 1,110 ns (36%); 15,000 (64%) 433; 460  
NaLaSiO4:Ce Ce3+   5,000 26 ns (32%) + slow 405  
BaBr2:Ce Ce3+ 4.72 5,000 (0.5 us); 10,300 (10 us) 80 (27%); 490 (22%); 2,100 (51%) 345; 370 9.8
Cs2NaYBr6:Ce Ce3+   5,000 (0.5 us); 9,500 (10 us) 61 (26%) 350 (23%) 2,700 (51%) 385; 420 6.3
YOI:Ce Ce3+ 5.42 5,000* 23 (85%) 430; 480  
Ba2Ca(BO3)2:Ce Ce3+ 4.7 5,100 24 400  
Cs2NaLuBr6:Ce Ce3+   5,200 (0.5 us); 5,800 (10 us) 61 (65%) 350 (35%) 389; 422 10.5
LuOCl:Ce Ce3+ 7.16 5,500* 377 (16%); 1,512 (77%) 380  
Lu3Al5O12:Ce (LuAG) Ce3+ 6.7 5,606   510  
YAl3B4O12:Ce Ce3+ 3.7 5,700   344; 367  
Cs3LaBr6:Ce Ce3+ 4.55 5,800 (0.5 us); 10,400 (10 us) 46 (18%) 270 (42%) 2,100 (40%) 390; 425 30
LiCaPO4:Ce Ce3+ 2.9 5,900 25.5    
Cs2LiLaBr6:Ce (CLLB) Ce3+ 4.2 50,000 55; >270 390; 420 2.9
K2CeBr5 Ce3+ 2.9 50,000     6.3
LaCl3:Ce Ce3+ 3.8 50,000      
LuI3:Ce Ce3+ 5.6 50,000 31 (69%); 400 (15%); 3,000 (16%) + slow 475; 520  
LuI3:Ce Ce3+ 5.6 50,000 23-31 474  
CsBa2Br5:Eu Eu2+ 4.5 50,000 (est.)      
YOCl:Ce Ce3+   52% of ZnS:Ag 34 365, 405  
BaCl2:Eu Eu2+ 3.86 52,000 25 (15%); 138 (21%); 642 (61%) 406 3.5
BaClBr:Eu Eu2+ 4.5 52,000     3.55
NaI:Tl, Eu, Ca Tl+, Eu2+ 3.67 52,000     4.9
BaCl2:Eu Eu2+ 3.89 52,000 (10 us) 25 (15%); 138 (21%); 642 (61%) 406 3.5
K2LaI5:Ce Ce3+ 4.4 53,000 (0.5 us); 55,000 (10 us) 24 401; 439  
BaClI:Eu Eu2+ 4.6 54,000     9
Cs2HfCl6 CX 3.86 54,000 4,370 (95%); 300 (5%) 400 3.3
CsBa2I5:Yb Yb2+ 4.9 54,000 870 414 5.7
BaFI:Eu Eu2+ 5 55,000 163 (7%); 573 (81%); 905 (6%) 405 8.5
CsI:Tl Tl+ 4.51 55,000      
RbGd2Br7:Ce Ce3+ 4.7 55,000 60 420 3.8
ZnSe:Te Te2- BX 5.42 55,000 50,000 645 13.2
LaBr(3-x)I(x):Ce Ce3+ 5.51 55,000(0.5 us); 58,000(10 us) 28 472; 500 14.6
CsI:Tl Tl+ 4.51 56,000      
CsI:Tl Tl+ 4.51 56,000     5.7
CsI:Tl Tl+ 4.51 56,000      
LaBr3:Ce Ce3+ 5.1 56,000 30    
RbGd2Br7:Ce Ce3+ 4.8 56,000 45 430  
RbGd2Br7:Ce Ce3+ 4.8 56,000 43 410 4.1
SrI2:Yb Yb2+ 4.55 56,000 610 414 4.35
CsI:Tl Tl+ 4.51 57,000   560  
BaBr2:Eu Eu2+ 4.85 58,000 267(21%); 655(55%) 414  
CeBr3 Ce3+   58,000 21 360; 380 3.2
BaBrCl:Eu Eu2+ 4.5 59,500 285(14%); 546(56%) 405  
BaCl2 SA 3.86 6,000 1.6 (72%); 34.8 (28%) 300-400  
CsGd2F7:Ce Ce3+ 5.5 6,000 ~30 (18%) + 3,000 340 13.5
Na2Gd2B2O7:Ce Ce3+   6,000 36 ns (50%); 66 (42%) 447; 478  
NaLuP2O7:Ce Ce3+ 4.11 6,000 5.5 (17.7%); 20.4(82.3%) 370  
BeO SX 2.86 6,500 18 250  
ScBO3:Ce Ce3+ 3.5 6,500   385; 420  
Cs2LiYCl6 SA 3.31 6,535 (1 us); 22,420 (10 us) 6,600 305  
BiBaO2Cl Bi3+ 6.36 6,600 100 (2%) 300 (41%) 600 (23%) 491  
LuCl3:Ce Ce3+ 4.0 6,600 46 + slow    
K2YF5:Pr Pr3+ 3.1 6.900 20 (5%); + slow 240  
Cs2LiLaBr6:Ce (CLLB) Ce3+ 4.2 60,000   410 3.0
LaBO3:Ce Ce3+ 5.2 600   355; 380  
YOBr:Ce Ce3+   61% of ZnS:Ag 65 405, 440  
CsI:Tl Tl+ 4.51 61,000      
LaBr3:Ce Ce3+ 5.1 61,000 30 356; 387 2.9
K2BaI4:Eu Eu2+   63,000 720 (67%); 3,100 (33%) 448 2.9
Cs2ZnCl4 CV 3.35 630 1.8 (95%); 10 255; 280; 390  
LaBr3:Ce Ce3+ 5.1 64,000 16    
LiGdCl4:Ce Ce3+ 3.70 64,600 33 345; 365  
CsSrI3:Eu Eu2+   65,000     5.9
LaSCl:Ce Ce3+   650 5.5 ns (11%); 25 (51%); 102 (28%) 460  
Cs2LiYCl6 CV 3.31 660 2 250  
CeBr3 Ce3+ 5.2 68,000 17 371  
Lu(x)Y(1-x)I3:Ce Ce3+   68,100 28 522  
LaBr3:Ce Ce3+ 5.1 68,600      
PbCO3 Pb2+ 6.6 680 2.0 (22%); 15 (69%); 92 (9%) 432; 465  
Cs2LiLuCl6:Ce Ce3+ 3.9 7,000 29.4 370; 410  
RbYP2O7:Ce Ce3+ 3.27 7,000 8.8 (14.8%); 27.8(85.2%) 393  
Cs2LiYCl6 SA 3.31 7,000 (1us); 22,00 (10 us) 7,000    
GdOI:Ce Ce3+ 6.85 7,000* 23 (67%) 440; 470  
LuOBr:Ce Ce3+ 7.58 7,000* 25 (56%); 73 (10%) 405; 445  
Bi4Ge3O12 (BGO) Bi3+ 7.13 7,100      
ZnWO4 CX 7.85 7,170 24,000   11.1
Bi4Ge3O12 (BGO) Bi3+ 7.13 7,200   510  
CsGd2F7:Ce Ce3+ 5.5 7,300 20 + 3,000 325  
Gd2SiO5:Ce (GSO) Ce3+ 6.71 7,400     9.2
BC-408 (plastic)     7,500      
Gd3Sc2Al3O12:Ce (GSAG) Ce3+   7,500     10.8
LaOI:Ce Ce3+ 5.91 7,500* 24 (86%) 470  
Bi4Ge3O12 (BGO) Bi3+ 7.13 7,610      
LaB3O6:Ce Ce3+ 4.2 7,700   300; 320  
Sc2O3 SA 3.83 7,700 38; 217 350 22
CdWO4 CX 7.9 7,800 5,000; 20,000 480  
Li2CaSiO4:Ce Ce3+ 2.9 7,800 27.0    
SrClI:Eu Eu2+ 4.1 70,000 (est.)      
LuOI:Ce Ce3+ 7.71 700* 23 (82%); 73 (10%) 430; 480  
BaBrI:Eu Eu2+ 5.3 71,000 480 413 4.3
ZnSe:O   5.42 71,500 4,000; 12,000 595 7.4
KCaI3:Eu Eu2+ 3.81 72,000 1060 465 3
LaBr3:Ce Ce3+ 5.1 73,000     2.7-3.2
LaBr3:Ce Ce3+ 5.1 74,000   375  
LaBr2:Pr Pr3+ 5.1 74,500 11,000   3.2
GdOCl:Ce Ce3+   75% of ZnS:Ag 36 365, 410  
KSr2Br5:Eu Eu2+ 3.98 75,000 1076 427 3.5
LaBr3:Ce Ce3+ 5.1 75,000      
LaNb5O14 SA   750 3,000 (73%) 445  
LuI3:Ce Ce3+ 5.6 76,000 (0.5 us; 98,000 (10 us) complex 540  
LuI3:Ce Ce3+ 5.68 76,000 (0.5 us; 98,000 (10 us) complex 540 3.3
PbCO3 Pb2+ 6.6 760 5.6; 27; 155 475  
LaBr3:Ce Ce3+ 5.1 78,000 ~17 + slower   2.0
Lu(x)Gd(1-x)I3:Ce Ce3+   78,400 29 540  
AgGd(PO3)4:Ce Ce3+   8,000 14 ns (32%) + slow 317; 333  
BaSiO3:Eu Eu2+   8,000 170 ns (21%); 480 (30%); 1,300 (45%) 510  
Bi4Ge3O12 (BGO) Bi3+ 7.13 8,000      
CeF3:Lu Lu3+ 6.16 8,000   290  
CsLuP2O7:Ce Ce3+ 4.49 8,000 4.4 (14.1%); 19.8(85.9%) 393  
CsYP2O7:Ce Ce3+ 3.57 8,000 5.2 (16.9%); 22.2(83.1%) 393  
LuF3:Ce Ce3+ 8.3 8,000 28 310  
Y3Al5O12:Pr Pr3+ 4.55 8,000 18 (80%) + slow 300-400  
Bi4Ge3O12 (BGO) Bi3+ 7.13 8,080      
Bi4Ge3O12 (BGO) Bi3+ 7.13 8,200      
ZnWO4 CX 7.85 8,460     9.3
Bi4Ge3O12 (BGO) Bi3+ 7.13 8,500      
YCl3:Ce Ce3+ 2.67 8,700 37 (86%); 640 (14%) 383  
CsBa2I5:Eu Eu2+ 5.0 80,000 900 430 3.9
CsBa2I5:Eu Eu2+ 4.9 80,000 350 434 2.3%
NaI(pure) SX 3.67 80,000 60 ns    
BaBrI:Eu Eu2+ 5.2 81,000 297(23%); 482(77%) 413 4.8
CaI2 SA 3.96 86,000 550 410  
CaI2:Eu Eu2+ 3.96 86,000 790 470  
BaLu2F8:Ce Ce3+ 6.94 870 35 + slow 330  
GdOBr:Ce Ce3+   89% of ZnS:Ag 60 405, 440  
BaBrI:Eu Eu2+ 5.21 89,000 313(59%); 741(15%) 413  
GdI3:Ce Ce3+ 5.2 89,000 33 563  
GdAlO3:Ce Ce3+ 7.5 9,000 30; 180 335; 358  
Cs2NaLaBr6:Ce Ce3+   9,000 (0.5 us); 17,000 (10 us) 61 (32%) 450 (11%) 1,900 (57%) 382; 414 11.3
Y2SiO5:Ce (YSO) Ce3+ 4.45 9,200 42 420 9.0
Y2O3 SA 5.04 9,300 34; 107 350 18.4
ZnWO4 CX 7.85 9,300 20,000    
Cs2LiYCl6:Ce (CLYC) Ce3+ 3.31 9,565 (1 us); 18,400 (10 us) 600; 6,000 372; 400  
Lu2Si2O7:Ce (LPS) Ce3+ 6.2 9,600      
LuAlO3:Ce (LuAP) Ce3+ 8.36 9,600 11; 28; 835 390  
KI:Tl Tl+ 3.1 9,700      
ZnO:Ga/H Ga3+ 5.7 9,700 0.8 389  
BaF2 SX 4.88 9,950      
KBa2I5:Eu Eu2+ 4.52 90,000 910 (81%); 4,900 (19%) 444 2.4
SrI2:Eu Eu2+ 4.6 90,000 1,200 435 3.7
SrI2:Eu Eu2+ 4.55 90,000     2.68
SrI2:Eu Eu2+   90,000     2.7
CsCl CV 4.0 900 0.9 240; 270  
K2LaCl5 SX 2.89 900 3,700 400  
LaScO3:Ce Ce3+   900 2.2 ns (63%); 7.3 (19%) 444  
CsBa2Br5:Eu Eu2+ 4.48 92,000 378 (6%); 1260 (67%) 435  
KSr2I5:Eu Eu2+ 4.39 94,000 990 445 2.4
KSr2I5:Eu Eu2+ 4.39 94,000 990 (89%); 5,000 (11%) 452 2.4
KSr2I5:Eu Eu2+ 4.39 95,300 890 445 2.8
BaBrI:Eu Eu2+ 5.2 97,000 70 (1.5%); 432 (70%); 9,500 (28.5%) 3.01 eV (42%); 2.91 eV (58%) 3.4
CsBa2I5:Eu Eu2+ 5 97,000 48 (1%); 383 (26%); 1,500 (68%); 9,900 (25%) 435 3.8
YI3:Ce Ce3+ 4.6 98,600 34 549  
BaY2F8:Ce Ce3+ 4.97 980 46 + slow 329  
CsGd2F7:Pr Pr3+ 5.5 d-f not observed      
BaI2:Ce Ce3+ 5.15 not detected      
La2O2S:Ce Ce3+ 5.82 Not detected      
La2O3:Ce Ce3+ 6.6 Not detected      
La2O3:Ce Ce3+ 6.6 Not detected      
LaAlO3:Ce Ce3+ 6.5 Not detected      
Lu2O3:Ce Ce3+ 9.52 Not detected      
Lu2O3:Ce Ce3+ 9.5 Not detected      
Y2O3:Ce Ce3+ 5.0 Not detected      
Y2O3:Ce Ce3+ 5.0 Not detected      
GdOF:Ce Ce3+ 7.69 not observed      
LaOF:Ce Ce3+ 6.03 not observed      
LiInSe2     not observed      
LuOF:Ce Ce3+   not observed      
YOF:Ce Ce3+ 5.23 not observed      
CaLaB7O13:Eu Eu2+   not significant      
CaYBO4:Eu Eu2+   not significant      

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