36AR 36K EC DECAY (342 MS) 1996IL02,1976FR03 12NDS 201201 36AR H TYP=ERR$AUT=Balraj Singh$DAT=12-Nov-2013$COM=Corrected some JPI$ 36AR H TYP=FUL$AUT=NINEL NICA, JOHN CAMERON AND BALRAJ SINGH$ 36AR2 H CIT=NDS 113, 1 (2012)$CUT=31-Dec-2011$ 36AR C 1976FR03, 1972MI13: MEASURED E(G), I(G) 36AR C 1996IL02, 1980ES01, 1980EW01: MEASURED E(P), E(A), I(P), I(A) 36AR C 1995YO04 ORIENTED 36K PRODUCED BY OPTICAL PUMPING OF 36K IN 36AR 36AR2C TARGET DURING 22 MEV P BOMBARDMENT 36AR C SOURCE PREPARED BY 36AR(P,N) (1972MI13, 1976FR03, 1980ES01, 1995YO04); 36AR2C 45SC(P,7N3P) (1980EW01); ^Ca(p,X) (1996IL02) 36AR CE LOGFT$FOR AN UNBOUND LEVEL THE LOGFT VALUE IS RATHER AN UPPER LIMIT 36AR2CE (SINCE USUALLY ONLY A FRACTION OF THE INTENSITY WAS OBSERVED) 36AR CE TI$FOR UNBOUND LEVELS THE INTENSITY IS THE SUM OF THE INTENSITIES OF 36AR2CE EACH OBSERVED DECAY MODE, REASON FOR WHICH THEY ARE RATHER LOWER LIMITS 36AR CG E,RI$FROM 1976FR03, UNLESS NOTED OTHERWISE 36AR CL E$FROM LEAST-SQUARES FIT TO EG'S BY EVALUATORS 36AR CL E$FOR UNBOUND LEVELS CALCULATED BY EVALUATORS BASED ON OBSERVED PROTON 36AR2CL OR ALPHA PARTICLE ENERGIES (^E(p) AND ^E(|a) GIVEN IN COMMENTS; ALSO 36AR2CL SP=8506.99 5, QA=6640.92 3, AND ATOMIC MASSES ALL FROM 2011AUZZ), AND 36AR2CL THE ASSUMPTION THAT B-DELAYED PROTON AND ALPHA DECAYS GO TO THE GROUND 36AR2CL STATE OF 35CL AND 32S RESPECTIVELY (1996IL02) 36K P 0 2+ 342 MS 2 12814.21 35 36K CP QP$ From 2011AuZZ. Other: 12805 8 (2003Au03) 36AR N 1.0 1.0 36AR PN 3 36AR L 0.0 0+ 36AR L 1970.84 22 2+ 36AR E 44 4 0.0050 5 4.78 4 44 4 36ARS E EAV=4692.12$CK=0.0001032$CL=9.973E-6 2$CM+=1.4612E-6 2 36AR G 1970.4 5 81.8 16 36AR CG %IG=81.8 16, using the calculated normalization. 36AR L 4178.67 20 3- 36AR G 2207.8 3 30 3 36AR G 4178.5 3 2.04 19 36AR CG %IG=2.04 19, using the calculated normalization. 36AR L 4441.54 20 2+ 36AR E 8.4 10 0.0023 3 4.90 6 8.4 10 36ARS E EAV=3468.04$CK=0.0002437$CL=2.3558E-5 4$CM+=3.4517E-6 6 36AR G 2470.5 4 4.8 4 36AR G 4440.8 3 8.0 8 36AR CG %IG=8.0 8, using the calculated normalization. 36AR L 4950.4 9 2+ 36AR E 0.16 5 6.48 14 0.16 5 36ARS E EAV=3216.83 48 36AR G 4950.0 9 0.16 5 36AR CG %IG=0.16 5, using the calculated normalization. 36AR L 4977.6 11 2- 36AR E 0.14 5 6.53 16 0.14 5 36ARS E EAV=3203.42 57 36AR G 4977.2 11 0.14 5 36AR CG %IG=0.14 5, using the calculated normalization. 36AR L 6612.12 20 2+ 36AR E 42 4 0.032 3 3.49 5 42 4 36ARS E EAV=2400.21$CK=0.0006877 2$CL=6.650E-5 2$CM+=9.743E-6 3 36AR G 2170.29 20 3.0 4 36AR G 2433.43 21 32 3 36AR G 4641.0 5 0.72 10 36AR G 6612.1 4 6.6 8 36AR CG %IG=6.6 8, using the calculated normalization. 36AR L 6731.0 5 1+,2+ 36AR E 0.90 11 5.11 6 0.90 11 36ARS E EAV=2342.03 30 36AR G 4759.6 7 0.45 8 36AR G 6730.5 5 0.45 7 36AR CG %IG=0.45 7, using the calculated normalization. 36AR L 6867.5 12 (1+,2+) 36AR E 0.44 8 5.37 8 0.44 8 36ARS E EAV=2275.29 61 36AR G X 0.10 4 36AR G 4896.3 11 0.34 7 36AR L 7140.9 5 3+ 36AR E 0.69 9 0.000739 5.06 6 0.69 9 36ARS E EAV=2141.80 30$CK=0.0009464 4$CL=9.152E-5 4$CM+=1.3410E-5 6 36AR G 2699.3 5 0.39 5 36AR G 5169.5 8 0.30 7 36AR L 7178.0 4 (1,2)+ 36AR E 0.70 10 0.0007511 5.04 7 0.70 10 36ARS E EAV=2123.71 26$CK=0.0009692 4$CL=9.372E-5 4$CM+=1.3732E-5 5 36AR G 5206.5 4 0.32 8 36AR G 7177.6 5 0.38 6 36AR CG %IG=0.38 6, using the calculated normalization. 36AR L 7338.7 4 3+ 36AR E 1.93 14 0.0023117 4.53 4 1.93 14 36ARS E EAV=2045.41 26$CK=0.0010766 4$CL=0.000104$CM+=1.5256E-5 6 36AR G X 0.39 4 36AR G 2897.0 3 0.99 11 36AR G 5367.5 5 0.55 8 36AR L 7709.3 5 1+ 36AR E 0.53 8 0.0008212 4.92 7 0.53 8 36ARS E EAV=1865.15 30$CK=0.0013934 7$CL=0.000135$CM+=1.9745E-5 9 36AR G 5738.2 6 0.36 7 36AR G 7708.2 7 0.17 3 36AR CG %IG=0.17 3, using the calculated normalization. 36AR L 7971.4 7 1+,2+ 36AR E 0.127 23 0.000244 5.40 8 0.127 23 36ARS E EAV=1738.18 38$CK=0.001697 1$CL=0.0001641 1$CM+=2.405E-5 2 36AR G 7970.5 7 0.127 23 36AR CG %IG=0.127 23, using the calculated normalization. 36AR L 8133.6 14 1+ 36AR E 0.09 3 0.0002 1 5.47 15 0.09 3 36ARS E EAV=1659.81 70$CK=0.0019306 2$CL=0.00018673$CM+=2.736E-5 4 36AR G X 0.037 25 36AR G 8132.6 14 0.053 17 36AR CG %IG=0.053 17, using the calculated normalization. 36AR L 8353 3 (1-,2+,3-) 36AR CL $ ^E(|a)=1522 3 (1996IL02) 36AR E 5.E-5 1 1.E-7 1 8.60 9 0.5E-4 1 36ARS E EAV=1554.1 15$CK=0.002321 6$CL=0.0002245 6$CM+=3.289E-5 9 36AR L 8398 3 36AR CL $ ^E(|a)=1562 3 (1996IL02) 36AR E 2.4E-5 8 6.4E-8 21 8.89 15 2.4E-5 8 36ARS E EAV=1532.4 15$CK=0.002413 7$CL=0.0002334 7$CM+=3.421E-5 9 36AR L 8556.6 6 2+ 36AR E 0.16 6 0.0004919 4.98 17 0.16 6 36ARS E EAV=1456.23 34$CK=0.002783 2$CL=0.0002692 2$CM+=3.945E-5 3 36AR G 6585.1 5 0.16 6 36AR L 8850 3 36AR CL $ ^E(|a)=1963 3 (1996IL02) 36AR E 6.E-5 2 2.E-7 1 8.22 15 0.6E-4 2 36ARS E EAV=1315.8 15$CK=0.003695 12$CL=0.0003574 1$CM+=5.238E-5 16 36AR L 8909 3 2+ 36AR CL $ ^E(|a)=2016 3 (1996IL02) 36AR E 0.0015 4 6.5E-6 17 6.78 12 1.5E-3 4 36ARS E EAV=1287.7 15$CK=0.003925 13$CL=0.0003797 1$CM+=5.564E-5 18 36AR L 9023.3 11 2 36AR CL $ ^E(p)=501.8 11 (1996IL02) 36AR E 0.000113 5.4E-7 15 7.84 12 1.1E-4 3 36ARS E EAV=1233.29 55$CK=0.004429 6$CL=0.0004285 6$CM+=6.279E-5 8 36AR L 9147.9 13 (2+,3-) 36AR CL $WEIGHTED AVERAGE OF 9147.6 14 (^E(p)=622.7 14 (1996IL02)) AND 36AR2CL 9149 3 (^E(|a)=2229 3 (1996IL02)) 36AR E 0.000306 1.7E-6 3 7.31 9 3.0E-4 6 36ARS E EAV=1174.34 64$CK=0.005083 8$CL=0.0004918 8$CM+=7.207E-5 11 36AR L 9219.7 12 1+ 36AR CL $ ^E(p)=693.5 8 (1996IL02) 36AR E 0.15 4 0.0009225 4.56 12 0.15 4 36ARS E EAV=1140.33 60$CK=0.005519 8$CL=0.0005340 8$CM+=7.825E-5 12 36AR G X 0.10 4 36AR G 9218.4 12 0.049 13 36AR CG %IG=0.049 13, using the calculated normalization. 36AR L 9363 3 1- 36AR CL $ ^E(|a)=2419 3 (1996IL02) 36AR E 1.1E-5 3 8.0E-8 22 8.59 12 1.1E-5 3 36ARS E EAV=1072.6 15$CK=0.006552 25$CL=0.0006340 2$CM+=9.29E-5 4 36AR L 9383.2 10 (2+,3,4+) 36AR CL $ ^E(p)=851.7 10 (1996IL02) 36AR E 0.0022 6 1.6E-5 4 6.27 12 2.2E-3 6 36ARS E EAV=1063.11 50$CK=0.006718 9$CL=0.0006501 9$CM+=9.526E-5 13 36AR L 9469 3 1-,2+ 36AR CL $ ^E(|a)=2513 3 (1996IL02) 36AR E 8.E-6 3 7.E-8 2 8.64 17 8E-6 3 36ARS E EAV=1022.7 15$CK=0.00749 3$CL=0.000725 3$CM+=0.0001062 5 36AR L 9503.3 11 (2,3) 36AR CL $ ^E(p)=969.6 12 (1996IL02) 36AR E 0.26 4 0.0023 3 4.10 7 0.26 4 36ARS E EAV=1006.62 55$CK=0.007830 12$CL=0.0007578 1$CM+=0.00011104 36AR G X 0.10 3 36AR G 7531.6 10 0.13 3 36AR L 9709.2 13 (1-,2+) 36AR CL $WEIGHTED AVERAGE OF 9709 3 (^E(|a)=2727 3 (1996IL02)) AND 36AR2CL 9709.2 14 (^E(p)=1168.5 14 (1996IL02)) 36AR E 0.0011 3 1.3E-5 3 6.29 12 1.1E-3 3 36ARS E EAV=910.25 63$CK=0.010390 21$CL=0.0010056 2$CM+=0.0001474 3 36AR L 9740.0 11 3- 36AR CL $ ^E(p)=1198.5 11 (1996IL02) 36AR E 0.000246 2.9E-6 7 6.93 11 2.4E-4 6 36ARS E EAV=895.89 54$CK=0.010865 19$CL=0.0010516 1$CM+=0.0001541 3 36AR L 9815.6 20 (1,2,3-) 36AR CL $ ^E(p)=1272.0 20 (1996IL02) 36AR E 0.000154 2.0E-6 5 7.06 12 1.5E-4 4 36ARS E EAV=860.72 95$CK=0.01216 4$CL=0.001177 4$CM+=0.0001725 6 36AR L 9879.6 7 2+,3+ 36AR CL $ ^E(p)=1334.2 7 (1996IL02) 36AR E 0.0042 11 6.4E-5 16 5.54 12 4.3E-3 11 36ARS E EAV=831.02 37$CK=0.013427 17$CL=0.0012996 1$CM+=0.00019044 36AR L 9956.9 22 (1,2+) 36AR CL $ ^E(p)=1409.3 22 (1996IL02) 36AR E 0.000103 1.7E-6 5 7.10 13 1.0E-4 3 36ARS E EAV=795.2 18$CK=0.01520 6$CL=0.001471 6$CM+=0.0002156 8 36AR L 9996 4 36AR CL $ ^E(|a)=2982 3 (1996IL02) 36AR E 8.E-6 2 1.E-7 1 8.15 11 8E-6 2 36ARS E EAV=776.4 19$CK=0.01621 11$CL=0.001569 11$CM+=0.0002299 1 36AR L 10081 10 (1-,2,3) 36AR CL $ ^E(p)=1530 10 (1980ES01) 36AR E 0.0002912 6.2E-6 25 6.49 18 3.0E-4 12 36ARS E EAV=737.3 46$CK=0.0187 4$CL=0.00182 4$CM+=0.000266 5 36AR L 10208 3 36AR CL $ ^E(|a)=3170 3 (1996IL02) 36AR E 1.1E-5 4 2.9E-7 11 7.78 16 1.1E-5 4 36ARS E EAV=679.9 14$CK=0.02366 14$CL=0.002290 14$CM+=0.0003356 2 36AR L 10329 3 2+ 36AR CL $ ^E(|a)=3278 3 (1996IL02) 36AR E 0.0004 1 1.E-5 1 6.08 11 4E-4 1 36ARS E EAV=624.8 14$CK=0.03003 19$CL=0.002908 18$CM+=0.000426 3 36AR L 10449 3 36AR CL $WEIGHTED AVERAGE OF 10435 10 (^E(p)=1874 10 (1980ES01)) AND 36AR2CL 10450 3 (^E(|a)=3385 3 (1996IL02)) 36AR E 0.000135 6.0E-6 22 6.38 16 1.4E-4 5 36ARS E EAV=570.6 14$CK=0.0388 3$CL=0.00376 3$CM+=0.000551 4 36AR L 10563 3 3- 36AR CL $WEIGHTED AVERAGE OF 10556 10 (^E(p)=1992 10 (1980ES01)) AND 36AR2CL 10564 3 (^E(|a)=3487 3 (1996IL02)) 36AR E 0.0005618 3.3E-5 11 5.60 14 5.9E-4 19 36ARS E EAV=519.5 14$CK=0.0505 4$CL=0.00489 4$CM+=0.000717 6 36AR L 10599 3 3- 36AR CL $ ^E(|a)=3518 3 (1996IL02) 36AR E 6.E-5 2 4.E-6 1 6.54 15 6E-5 2 36ARS E EAV=503.5 14$CK=0.0552 5$CL=0.00534 4$CM+=0.000783 6 36AR L 10614 10 1+,2+,3+ 36AR CL $ ^E(p)=2048 10 (1980ES01) 36AR E 0.0004417 3.0E-5 11 5.62 17 4.7E-4 18 36ARS E EAV=496.8 45$CK=0.0573 15$CL=0.00555 15$CM+=0.000813 21 36AR L 10706 4 (0+,1-,2+) 36AR CL $ ^E(|a)=3613 4 (1996IL02) 36AR E 4.E-6 2 3.E-7 2 7.55 22 4E-6 2 36ARS E EAV=456.0 18$CK=0.0727 8$CL=0.00705 8$CM+=0.001033 12 36AR L 10858 3 3- 36AR CL $ ^E(|a)=3748 3 (1996IL02) 36AR E 1.5E-5 4 2.1E-6 6 6.67 13 1.7E-5 5 36ARS E EAV=389.3 14$CK=0.1122 11$CL=0.01087 10$CM+=0.001593 15 36AR L 10972 4 1,2 36AR CL $ ^E(|a)=3849 4 (1996IL02) 36AR E 2.9E-6 12 6.E-7 3 7.15 19 3.5E-6 15 36ARS E EAV=339.9 18$CK=0.1605 22$CL=0.01555 21$CM+=0.00228 3 36AR L 11056 3 1+,2+,3+ 36AR CL $WEIGHTED AVERAGE OF 11036 10 (^E(p)=2458 10 (1980ES01)) AND 36AR2CL 11058 3 11036 10( ^E(|a)=3926 3 (1996IL02)) 36AR E 0.000249 8.E-5 3 5.02 17 3.2E-4 12 36ARS E EAV=303.9 13$CK=0.2126 22$CL=0.02060 22$CM+=0.00302 4 36AR L 11236 4 1+,2+,3+ 36AR CL $WEIGHTED AVERAGE OF 11223 10 (^E(p)=2640 10 (1980ES01)) AND 36AR2CL 11238 4 (^E(|a)=4086 4 (1996IL02)) 36AR E 0.000125 9.E-5 4 4.84 19 2.1E-4 9 36ARS E EAV=228.0 17$CK=0.397 6$CL=0.0385 6$CM+=0.00564 8 36AR L 11640 20 1+,2+,3+ 36AR CL $ ^E(|a)=4443 20 (1980ES01) 36AR E 5.E-7 4 4.E-5 2 4.95 22 0.4E-4 2 36ARS E EAV=63.9 80$CK=0.890 7$CL=0.0864 6$CM+=0.01266 9