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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

Information taken from the site: http://scintillator.lbl.gov/