206PB ADOPTED LEVELS, GAMMAS 90NDS 980709 206PB H TYP=ERR$AUT=J. TULI$COM=FIXED FORMAT ERRORS 1/97$ 206PB H TYP=FUL$AUT=R. G. Helmer and M. A. Lee$CIT=NDS 61,93 (1990)$ 206PB2 H CUT=1-Jun-1989$ 206PB H TYP=FUL$AUT=E. Browne$CIT=NDS XX,XXX (1998)$ 206PB2 H CUT=1-Jan-1998$ 206PB C Data are from many reactions and several decay modes, which include 206PB2C 206BI EC DECAY, 206TL B- decay, two 206PB IT DECAY, 210PO A DECAY, 206PB3C Coulomb excitation, 206PB(N,N'G), 208PB(P,T), 204PB(T,P), 206PB4C 208PB(A,6HE), 207PB(P,D), 206PB(D,D'), 206PB(A,A'), 206TL(A,T), 206PB5C 206PB(G,G'), 206PB(e,e'), 206PB(P,P'), 205PB(N,G) E=THERMAL, 206PB6C 204HG(A,2NG), 204HG(9BE,A3NG), 205TL(3HE,D), 209BI(POL P,A), 206PB7C and studies with mesons. 206PB C Several articles have provided data on isotope shifts for 206PB2C the Pb isotopes, and related deduced quantities, such as: 206PB3C shift of K and L x-ray energies (73LE16,81BOZQ); 206PB4C shift of optical line energies (80TI04,82REZV,86BO18,88BU20); 206PB5C shift in charge radius 206PB6C (73LE16,81BOZQ,82REZV,83TH03,86AN06,87DI06,90DI09,91RE08); 206PB6C theory of these shifts (many of the above articles and 206PB7C 88GA27); and shift in energies of x rays in muonic atoms 206PB8C (66EH01,69AN26,75KE05,84HO15). 206PB CG The energies of the x rays from muonic atoms are given by 206PB2CG 66AC02, 69AN02, and 73MA45. Other muonic atom articles: 69FO11 206PB3CG and 74FO09. 206PB D The following 206PB data sets exist: 206PB D 206PB Adopted Levels, Gammas 206PB D 206BI EC decay 206PB D 206TL B- decay 206PB D 206PB IT DECAY (125 US) 206PB D 206PB IT DECAY (202 NS) 206PB D Coulomb excitation 206PB D 206PB(N,N'G),206PB(P,P'G) 206PB D 208PB(P,T) 206PB D 204PB(T,P) 206PB D 208PB(A,6HE),(12C,14C),(16O,18O),(18O,20O) 206PB D 207PB(P,D),(3HE,A) 206PB D 207PB(G,N),206PB(N,N'),204HG(3HE,N) 206PB D 210PO A DECAY 206PB D 206PB(D,D'),(A,A') 206PB D 205TL(A,T) 206PB D 206PB(G,G') 206PB D 206PB(E,E') 206PB D 206PB(P,P') 206PB D 209BI(PI-,3NG),(MU-,3NG) 206PB D 207PB(MU-,N),206PB(MU-) 206PB D 205PB(N,G) E=THERMAL 206PB D 204HG(A,2NG) 206PB D 204HG(9BE,A3NG) 206PB D 205TH(3HE,D) 206PB D 209BI(POL P,A) 206PB D 206PB(PI,PI') 206PB D 206PB(17O,17O') 206PB CL Above 3600 keV the correspondence between adopted levels with 206PB2CL those from the individual measurements has been based primarily on 206PB3CL their energy, and when possible, on their JPI assignment or 206PB4CL reaction L values. This correpondence, however, is not always 206PB5CL unique. 206PB CL Wave functions for most of the levels below 3 MeV have been 206PB2CL derived from the analysis of measured data [e.g., the (D,T) 206PB3CL study of 68TI01 and IAR study of 68RI11] and from theoretical 206PB4CL calculations (e.g., 73MA42 and 68TR02). Where there is 206PB5CL agreement, the primary components are given here. These 206PB6CL components all involve two neutron holes in the doubly magic 206PB7CL 208PB nucleus. More details are given in the ENSDF file. 206PB cL Other reactions: 206PB CL 206PB(208PB,208PB'G), E=1290 MEV. MEASURED 208PB,208P' G COIN 206PB2CL (92WO09). 206PB CL E From least-squares fit to adopted G-ray energies for levels 206PB2CL de-excited by G rays, and average of values for levels from 206PB3CL other reactions. Exceptions are noted in comments. 206PB CL J For the L transfers quoted the JPI of the various targets 206PB2CL are: 0+ for 204PB(T,P), 206PB(P,P'), 208PB(P,T) and (A,6HE) and 206PB3CL 1/2- for 207PB(P,D), 1/2+ for 205TL(3HE,D), and 9/2- for 206PB4CL 209BI(POL P,A). SEE 209BI(POL P,A) FOR ARGUMENTS FOR 206PB5CL SPIN AND PARITY ASSIGNMENTS OF LEVELS POPULATED BY THIS REACTION ONLY. 206PB CL J(X)$FROM ANALYZING POWER AND MEASURED CROSS-SECTION IN (POL P,A). 206PB CL J(Y)$FROM G(THETA) IN (9BE,A3NG) AND (A,2NG). 206PB CG E,RI$From 206BI EC decay, 205PB(N,G) E=THERMAL, 206PB(N,N'G), 206PB2CG 204HG(A,2NG), and 204HG(9BE,A3NG), unless otherwise specified. 206PB3CG Values that differ significantly are given in comments. 206PB CG E(A),RI(A)$WEIGHTED AVERAGE (Limitation of Relative Statistical 206PB2CG Weights method) FROM 206BI EC DECAY AND 205PB(N,G), E=THERMAL. 206PB CG E(B),RI(B)$FROM 205PB(N,G), E=THERMAL. 206PB CG E(D),RI(D),M(D)$FROM 204HG(A,2NG). 206PB CG M,MR From 206BI EC decay studies, unless otherwise noted. 206PB CG RI(P) From 206(N,N'G) study (82DIZT). Value is from a broad 206PB2CG peak or may contain contribution from another reaction. 206PB CG M(Q) From IT DECAY (197 NS) and IT DECAY (125 US) study (77DR08). 206PB CG M(R) From 206TL B- decay studies. 206PB XR206PB(P,P') 206PB XF206PB(N,N'G) 206PB XJ204PB(T,P) 206PB XL207PB(P,D),(D,T),(3HE,A) 206PB XM208PB(P,T) 206PB XG206PB(G,G') 206PB XQ206PB(E,E') 206PB XK208PB(A,6HE), (12C,14C), 206PB XN207PB(G,N) 206PB XO206PB(D,D'),(A,A') 206PB XA206BI EC DECAY 206PB XD206PB IT DECAY (202 NS) 206PB XC206PB IT DECAY (125 US) 206PB XB206TL B- DECAY 206PB XECOULOMB EXCITATION 206PB XH209BI(PI-,3NG),(MU-,3NG) 206PB XI207PB(MU-,NG),206PB(MU-,G) 206PB XP205TL(A,T) 206PB XS210PO A DECAY 206PB XT206PB(N,N') 206PB XU204HG(3HE,N) 206PB XV204PB(T,PG) 206PB XW206PB(P,P'G) 206PB XX205PB(N,G) E=THERMAL 206PB XY204HG(A,2NG) 206PB XZ204HG(9BE,A3NG) 206PB X%205TL(3HE,D) 206PB X@209BI(POL P,A) 206PB X#206PB(PI,PI') 206PB X&206PB(17O,17O') 206PB Q -3758 8 8088.2 4 7254.8 6 1136.6 12 95AU04 206PB L 0.0 0+ STABLE 206PB2 L XREF=+ 206PB CL CONFIGURATION: Primary wave function component is (P1/2,-2). 206PB DL CONF The (P1/2,-2) component of the wave function has been deduced 206PB2DL to be 54 to 65% from measurements (62MU05,68TI01,68RI11) and 206PB3DL 64 and 68% from model calculations (68TR02,73MA42). The other 206PB4DL components are (F5/2,-2) from 16 to 25%; (P3/2,-2) from 12 to 20%; 206PB5DL (I13/2,-2) from 1.2 to 12%; and (F7/2,-2) from 1.7 to 3%. 206PB CL T T(SF) GT 1.0E+23 Y from search for fission product tracks 206PB2CL in old PB samples (70PR15). 206PB L 803.04925 2+ 8.14 PS 8 206PB2 L XREF=-(UV) 206PB3 L MOME2=+0.05 9 $ MOMM1 LT 0.030 206PB CL J From E2 G to 0+ level, also L=2 transfer in (P,P') 206PB CL CONFIGURATION: Primary wave function 206PB2CL component is (P1/2,-1)(F5/2,-1). 206PB DL CONF The (P1/2,-1)(F5/2,-1) component of the wave function has 206PB2DL deduced to be 68% from measurements (68TI01) and 50 and 52% from 206PB3DL model calculations (68TR02,73MA42). Other components are 206PB4DL (P1/2,-1)(P3/2,-1) from 22 to 29%; (F5/2,-2,2+) 8%; and 206PB5DL (P3/2,-2,2+) 4%. 206PB CL T From BE2 = 0.103 1 (78JO04) from Coulomb excitation. See 206PB2CL Coulomb excitation and (e,e') for other BE2 values. 206PB CL T From direct measurements: T = 9.1 PS 6 following Coulomb 206PB2CL excitation (70QU02) and LT 1 NS from 210PO A DECAY (52DE08). 206PB CL MOME2 From 89RA17 evaluation based on Coulomb excitation 206PB2CL measurement (78JO04). 206PB CL MOMM1 From 89RA17 evaluation based on data of 86BI13. Other 206PB2CL MOMM1=0.14 +14-6 from g=0.07 +7-3 from Coulomb excitation 206PB3CL (74OL02) and MOMM1=-0.02 14 from 206BI EC decay (70ZA03). 206PB G 803.06 3 100 E2 0.01043 A 206PB3 G BE2W=2.85 3 206PB L 1165 2 0+ 0.75 NS 4 206PB2 L XREF=BGJLMNORTVWY%@ 206PB CL E From 206PB(P,P'G). 206PB2CL Other value: 1166 3 from 206Pb(p,d). 206PB CL J From E0 G to 0+ level. 206PB CL CONFIGURATION: Primary wave function component is (F5/2,-2). 206PB DL CONF The (F5/2,-2) component of the wave function has deduced to 206PB2DL 48% from measurements (68TI01) and 56 and 70% from model 206PB3DL calculations (68TR02,73MA42). Other components are (P1/2,-2) 206PB4DL from 22 to 30%; and (P3/2,-2) 0.8 to 1.6%. 206PB CL T Weighted average of 0.67 NS 7 (72TA18) and 0.77 NS 4 206PB2CL (76JU03) from 206PB(P,P'G) studies. 206PB G 362 0.3 LE 206PB CG RI From 206TL B- decay (72COYX). 206PB G 1165 2 E0 100 25 206PB3 G FLAG=QR 206PB CG E From 206Pb(p,p'g). 206PB L 1340.47 4 3+ 206PB2 L XREF=ACDFHIKLMNORTXYZ% 206PB CL J From M1 G to 2+ level, L=3 transfer in (P,D), and 206PB2CL SIGMA(THETA) in (P,T). 206PB CL CONFIGURATION: Primary wave function 206PB2CL component is (P1/2,-1)(F5/2,-1). 206PB DL CONF The (P1/2,-1)(F5/2,-1) component of 206PB2DL the wave function has been 206PB2DL deduced to be 100 to 112% from measurements (68TI01,68RI11) and 206PB3DL 99.6 or 100% from model calculations (68TR02,73MA42). 206PB G 537.47 4 100 M1(+E2) +0.001 5 0.0935 A 206PB L 1466.80 3 2+ 206PB2 L XREF=FGIKLMNORTXY%@ 206PB CL J From E2 G to 0+ level, also L=2 in (P,P'). 206PB CL CONFIGURATION: Primary wave function component 206PB2CL is (P1/2,-1)(P3/2,-1). 206PB DL CONF The (P1/2,-1)(P3/2,-1) component of the wave function has 206PB2DL deduced to be 61 and 86% from measurements (68TI01,68RI11) and 206PB3DL 53 and 59% from model calculations (68TR02,73MA42). Other 206PB4DL component is (P1/2,-1)(F5/2,-1) from 38 to 43%. 206PB G 126.42 6 3.8 4 B 206PB G 663.75 3 100 1 (M1+E2) -0.07 2 B 206PB CG M,MR FROM 206PB(N,N'G). 206PB G 1466.78 4 30.4 7 E2 B 206PB L 1683.96 4 4+ 206PB2 L XREF=ACDFHIJKLMNOQRTXYZ@ 206PB3 L BE4=0.0167 206PB CL J From M1 G to 3+ level and L=4 in (P,P'). 206PB CL CONFIGURATION: Primary wave function 206PB2CL component is (P3/2,-1)(F5/2,-1). 206PB DL CONF The (P3/2,-1)(F5/2,-1) component of the 206PB2DL wave function has been 206PB2DL deduced to be 53 and 61% from model calculations (68TR02,63AR?? 206PB3DL as quoted in 65LO05). Other components are (F5/2,-2) 31 and 32%; 206PB4DL (P1/2,-1)(F7/2,-1) 3.4 and 9%; (P3/2,-1)(F7/2,-1) 2.2%; and 206PB5DL (F5/2,-1)(F7/2,-1),4+ 1.6 and 1.8%. 206PB CL BE4 From (e,e') (84PA02). 206PB G 343.51 3 35.4 5 M1(+E2) +0.001 3 0.3078 A 206PB CG RI From 206BI EC decay; from (N,N'G) reaction RI = 42.2 17. 206PB CG MR=-0.11 4 FROM 206PB(N,N'G). 206PB G 880.98 5 100.0 10 E2 0.0086 A 206PB L 1704.46 3 1+ 206PB2 L XREF=FGILMNRT(1710)X% 206PB CL J From G to 0+ level, L=1 in (P,D), and C2S in (P,D). 206PB CL CONFIGURATION: Primary wave function 206PB2CL component is (P1/2,-1)(P3/2,-1). 206PB DL CONF The (P1/2,-1)(P3/2,-1) component of the wave function has 206PB2DL been deduced to be 100 and 102% from measurements (68TI01,68RI11) 206PB3DL and 99.0 and 100% from model calculations (68TR02,73MA42). 206PB4DL Other component is (F5/2,-1)(F7/2,-1) at 1.0%. 206PB G 1704.45 3 100 B 206PB L 1784.08 6 2+ 206PB2 L XREF=FGKLMNRT(1762)XY% 206PB CL J From L=1+3 in (P,D). 206PB CL CONFIGURATION: Primary wave function 206PB2CL component is (F5/2,-2),2+. 206PB DL CONF The (F5/2,-2),2+ component of the wave function has been 206PB2DL deduced from model calculations (61GU03,83RI05). Other 206PB3DL components are (P1/2,-1)(P3/2,-1) and (P1/2,-1)(F5/2,-1) (77VA09). 206PB G 317.52 14 23 3 B 206PB G 617.6 4 11 3 B 206PB G 980.99 5 100 4 B 206PB G 1784.7 11 5.2 15 206PB L 1997.65 4 4+ 206PB2 L XREF=ACFKLMNO(1993)RTXY@ 206PB CL J From L=4 in (P,P'). 206PB CL CONFIGURATION: Primary wave function 206PB2CL components are (P3/2,-1)(F5/2,-1) and 206PB3CL (F5/2,-2),4+. 206PB DL CONF The (P3/2,-1)(F5/2,-1) and (F5/2,-2),4+ components of the 206PB2DL wave function have been deduced from model calculations 206PB3DL (61GU03,83RI05). Another component is (P1/2,-1)(F7/2,-1) (77VA09). 206PB G 313.66 4 21 2 M1(+E2) A 206PB CG CC CC is for pure M1, the most likely multipolarity. For 206PB2CG M1+E2, CC = 0.25 15. 206PB G 657.18 4 100 2 M1(+E2) 0.44 LT 0.052 3 A 206PB G 1194.68 8 14.5 8 E2 A 206PB CG M MEASURED E2(+M1). LEVEL SCHEME REQUIRES E2. 206PB CG RI From 206BI EC decay; from (N,N'G) reaction RI = 9.8 23. 206PB L 2147.9 2+ 206PB2 L XREF=FKLMNRT(2155)X%@ 206PB CL J From L=1+3 in (P,D). 206PB CL CONFIGURATION: Primary wave function 206PB2CL component is (P3/2,-1)(F5/2,-1),2+. 206PB DL CONF The (P3/2,-1)(F5/2,-1),2+ component of the wave function has 206PB2DL been deduced from model calculations (61GU03). Other components 206PB3DL are (P1/2,-1)(P3/2,-1) and (P1/2,-1)(F5/2,-1) (77VA09). 206PB G 682.29 19 20 3 (M1+E2) -0.22 5 B 206PB3 G FL=1466.80 206PB CG M,MR FROM 206PB(N,N'G). 206PB G 808.58 17 20 3 (M1+E2) -0.27 11 B 206PB3 G FL=1340.47 206PB CG M,MR FROM 206PB(N,N'G). 206PB G 1345.88 7 100 4 B 206PB3 G FL=803.049 206PB L 2196.7 4 (2+,3+) 206PB2 L XREF=FTX 206PB CL J From G (M1+E2)to 2+ and 3+ levels. 206PB G 729.2 8 7 3 (M1+E2) -0.05 5 206PB CG FROM 206PB(N,N'G). 206PB G 856.6 6 100 (M1+E2) -0.026 15 206PB CG RI,M,AND MR ARE FROM 206PB(N,N'G). 206PB2CG EG IS FROM 205PB(N,G), E=THERMAL. 206PB G 1393.8 8 78 5 (M1+E2) -0.019 9 206PB CG RI, M, MR, ARE FROM FROM 206PB(N,N'G). 206PB2CG EG IS FROM 205PB(N,G), E=THERMAL. 206PB L 2200.14 4 7- 125 US 2 206PB2 L XREF=ACDFHKLMORYZ@ 206PB3 L MOMM1=-0.1519 28 $ MOME2=0.33 5 206PB CL J From L=7 in (P,P'). 206PB CL CONFIGURATION: Primary wave function 206PB2CL component is (P1/2,-1)(I13/2,-1). 206PB DL CONF The (P1/2,-1)(I13/2,-1) component of the wave function has 206PB2DL been deduced to be 124% from measurements (68TI01) and 91 and 206PB3DL 94% from model calculations (68TR02,73MA42). Other components 2 206PB CL T Weighted average (Limitation of Relative Statistical Weights, 206PB2CL reduced CHI**2=2.8) of 125 US 19 (95AN36), 206PB3CL 126 US 6 (66MOZZ), 141 US 7 (67CO20), 206PB4CL and 119 US 3 (73DAZL) from IT DECAY (125 US); 125 US 2 from 206PB5CL cross-section study (73SA22); and 145 US 15 (53AL47), 128 US 5 206PB6CL (57TO22), 123 US 4 (57AS65), 123 US 3 (60BE36), 130.5 US 15 206PB7CL (62TH12), and 123.3 US 11 (68TA13) from 206BI EC decay. 206PB DL T New calculation of average by E. Browne, March 1998. 206PB DL T For this average the reduced-CHI**2 is 3.1. Almost one 206PB2DL half of this value is from the 130.5 US 15 value. 206PB CL G From G=-0.0217 4 by 72MA24. Other: -0.24 14 (70QU03). 206PB CL MOMM1 From 89RA17 evaluation based on data of 72MA24. 206PB CL MOME2 From 89RA17 evaluation based on data of 75RI03. Others: 206PB2CL 0.5 2 (73DIZE) and LE 0.2 (70QU03). 206PB G 202.44 3 0.11 1 E3 3.85 206PB3 G BE3W=0.28 4 206PB G 516.18 4 100 1 E3 0.0897 206PB CG RI There is also a G at 515.7 keV. 206PB3 G BE3W=0.36 6 206PB L 2236.5314 206PB2 L XREF=FMX 206PB G 1433.47 13 100 B 206PB L 2315 2 0+ 206PB2 L XREF=FK(2320)LM%@ 206PB CL J From L=0 in (P,T). 206PB CL CONFIGURATION: Primary wave function component is (P3/2,-2). 206PB DL CONF The (P3/2,-2) component of the wave function has been 206PB2DL deduced from model calculations (61GU03). Other component is 206PB3DL (P1/2,-2) (77VA09). 206PB L 2384.12 4 6- 29 PS 8 206PB2 L XREF=AFLMR(*2385)Y 206PB3 L MOMM1=+0.8 4 206PB CL J From M1 G to 7- level, L=6 in (P,D), and SIGMA(THETA) in 206PB2CL (P,T). 206PB CL CONFIGURATION: Primary wave function component 206PB2CL is (P1/2,-1)(I13/2,-1). 206PB DL CONF The (P1/2,-1)(I13/2,-1) component of the wave function has 206PB2DL been deduced to be 72% from measurements (68TI01) and 97 and 206PB3DL 100% from model calculations (68TR02,73MA42). 206PB CL T From 206BI EC decay (63SI12). 206PB CL MOMM1 From 89RA17 evaluation based on data of 206PB2CL 70ZA03 by perturbed GG(THETA) in 206BI EC decay. 206PB G 183.977 16 100 M1(+E2) 0.013 25 1.720 2 206PB3 G BM1W=0.045 13 $ BE2W LT 0.4 206PB L 2391.32 8 ? 206PB2 L XREF=AR(*2385)T(2385) 206PB DL J (G,N) has 0+ in region of 2400, as doublet with the 2+. 206PB G 1588.2 1 100 M1(+E2),E3 206PB L 2423.36 4 2+ 206PB2 L XREF=FKLMRU(2400)X@ 206PB CL J From L=1+3 in (P,D). 206PB CL CONFIGURATION: Primary wave function 206PB2CL component is (P3/2,-2),2+. 206PB DL CONF The (P3/2,-2),2+ component of the wave function has been 206PB2DL deduced from model calculations (61GU03). Other components are 206PB3DL (P1/2,-1)(P3/2,-1) and (P1/2,-1)(F5/2,-1) (77VA09). 206PB G 639.0 4 4.9 13 B 206PB G 718.92 5 49 2 B 206PB G 956.56 11 20.6 16 B 206PB G 1082.7 3 8.5 16 B 206PB G 1620.30 6 100 4 B 206PB L 2647.77 6 3- 0.087 PS 21 206PB2 L XREF=AEFJ(2643)LMOQRT(2634)XY%#& 206PB3 L BE3=0.64 4 206PB CL J From L=3 in (P,P'), also E1 G to 2+ level and G to 4+ level. 206PB CL CONFIGURATION: Primary wave function 206PB2CL component is octupole vibration based 206PB3CL 0+ ground state. 206PB CL T From Coulomb excitation (72HA59). Other value from Coulomb 206PB2CL excitation: 0.28 PS 14 (71GR31). 206PB CL BE3 From 0.64 4 (68ZI02) from (e,e') reaction. Others: 206PB2CL 0.66 7 (71GR31), 0.50 3 (72HA59), and 0.62 5 (78SP08) from 206PB3CL Coulomb excitation. 206PB DL BE3 The weighted average of the four BE# values is 206PB2DL 0.57 4 with a reduced-CHI**2 = 3.7. 206PB G 964.22 10 6.4 7 [E1] 0.0027 206PB3 G FL=1683.96 206PB3 G BE1W=0.00015 4 206PB G 1844.47 10 100 4 E1 A 206PB CG M FROM (A,2NG), INCORRECTLY GIVEN AS M1. 206PB3 G BE1W=0.00033 9 206PB L 2658.4 5 9- 206PB2 L XREF=DFHIKLMYZ@ 206PB CL J From L=9 in (P,T). 206PB G 458.1 100 E2 Q 206PB L 2782.15 4 5- 206PB2 L XREF=AFJKMORTY%@ 206PB CL J From E1 G's to 4+ levels and M1 G to 6-, also L=5 in (P,P'). 206PB CL CONFIGURATION: Primary wave function 206PB2CL component is (F5/2,-1)(I13/2,-1),5-. 206PB DL CONF The (F5/2,-1)(I13/2,-1),5- component of the wave function has 206PB2DL been deduced from model calculations (61GU03,83RI05). 206PB G 398.00 3 79.6 7 M1(+E2) 0.038 3 0.207 206PB G 581.97 8 3.59 18 E2 206PB CG M Original assignment allowed E3, but placement excludes it. 206PB G 784.58 7 3.97 7 E1 0.0039 206PB G 1098.26 7 100 11 E1 0.0021 206PB L 2826.29 5 (4)- 206PB2 L XREF=AFMR(2831)T(2820) 206PB CL J From E1 G to 4+ level, G's to 6- and 2+ levels, and 206PB2CL SIGMA(THETA) in (P,T). 206PB G 44.110 18 6.4 8 M1(+E2) 0.037 LE 20.1 2 206PB CG RI CALCULATED by evaluators from EL1C in 206BI EC decay. 206PB G 434.89 10 20.5 18 206PB G 442.14 10 34 4 206PB G 1142.37 10 100 4 E1 0.00198 206PB G 2022.80 20 11.6 18 M2,M3,E3 206PB DG M Multipolarity of 1142 G requires that M3 be excluded. 206PB L 2864.52 6 7- 206PB2 L XREF=AFK(2870)LMRY@ 206PB CL J From L=7 in (P,T); also M1 G's to 6- and 7- levels. 206PB CL CONFIGURATION: Primary wave function 206PB2CL component is (F5/2,-1)(I13/2,-1),7-. 206PB DL CONF The (F5/2,-1)(I13/2,-1),7- component of the wave function has 206PB2DL been deduced from model calculations (61GU03). Another component 206PB3DL is (P1/2,-1)(I13/2,-1) (77VA09). 206PB G 480.38 10 91 9 M1 0.126 206PB G 664.17 10 100 5 M1 0.0537 206PB G 1180.70 10 68 7 206PB L 2929.06 9 4+ 206PB2 L XREF=FKLMO(2935)RXY 206PB CL J From G to 3+ level and L=4 in (P,P'). 206PB CL CONFIGURATION: Primary wave function 206PB2CL component is (P1/2,-1)(F7/2,-1). 206PB DL CONF The (P1/2,-1)(F7/2,-1) component of the wave function has 206PB2DL been deduced to be 86% from measurements (68TI01) and 80 and 206PB3DL 81% from model calculations (68TR02, 73MA42). Other component 206PB4DL is (P3/2,-1)(F5/2,-1) at 13%. 206PB G 1588.59 8 100 M1 B 206PB CG M$FROM 204HG(A,2NG). 206PB L 2939.57 5 6- 206PB2 L XREF=AFT@ 206PB CL J From M1 G's to 5- and 7- levels. 206PB CL CONFIGURATION: Primary wave function 206PB2CL component is (F5/2,-1)(I13/2,-1),6-. 206PB DL CONF The (F5/2,-1)(I13/2,-1) component of the wave function has 206PB2DL been deduced from model calculations (61GU03). 206PB G 157.504 28 22.6 25 M1(+E2) 0.14 LT 2.66 2 206PB G 555.30 10 23.9 25 206PB G 739.24 8 100 5 M1(+E2) 206PB CG M Original assignment allowed E3, but placement excludes it. 206PB L 2954.6 4 8- 206PB2 L XREF=Y 206PB CL J$296G M1 TO 9-, 754G M1 TO 7-. 206PB G 296.2 4 68 8 M1 D 206PB G 754.4 4 100 8 M1 D 206PB L 2960 2 206PB2 L XREF=R 206PB L 2984 5 2+ 206PB2 L XREF=MR(2988) 206PB CL J From L=2 in (P,T). 206PB L 3016.40 5 5- 206PB2 L XREF=AFK(3010)MORTY%@ 206PB CL J From E1 G to 4+ level and M1 G to 6- level, also L=5 206PB2CL in (P,P'). 206PB CL CONFIGURATION: Primary wave function 206PB2CL component is (P3/2,-1)(I13/2,-1). 206PB DL CONF The (P3/2,-1)(I13/2,-1) component of the wave function has 206PB2DL been deduced from model calculations (83RI05). 206PB G 190.04 3 206PB G 234.242 23 5.4 3 M1(+E2) 0.19 LT 0.857 11 206PB G 632.25 5 100 1 M1(+E2) -0.12 3 0.0604 4 206PB G 816.25 10 206PB G 1332.33 10 6.3 3 E1 0.00152 206PB L 3033 3 206PB2 L XREF=R 206PB L 3120.912 (3+) 206PB2 L XREF=FKLMRTX 206PB CL J From G to 2+ level, L=3 in (P,D), and SIGMA(THETA) in (P,T). 206PB CL CONFIGURATION: Primary wave function 206PB2CL component is (P1/2,-1)(F7/2,-1). 206PB DL CONF The (P1/2,-1)(F7/2,-1) component of the wave function has 206PB2DL been deduced to be 106% from measurements (68TI01) and 98 and 206PB3DL 100% from model calculations (68TR02,73MA42). 206PB G 1655.5 5 28 7 B 206PB G 2319.32 17 100 10 B 206PB L 3139 6 206PB2 L XREF=R 206PB L 3193 3 (5-) 206PB2 L XREF=L(*3194)MP(*3200)RT(*3200)@ 206PB CL J From L=(5) in (P,P') and (P,T). 206PB L 3194.3 4 (1,2) 206PB2 L XREF=FL(*3194)P(*3200)T(*3200)X 206PB CL J From G to 0+ level. 206PB G 2391.0 4 65 15 B 206PB G 3194.6 5 100 19 B 206PB L 3225.37 6 6-,7- 206PB2 L XREF=AFP(*3200)R 206PB CL J From G to 5- and 7- levels and M1 or E2 G to 6- level. 206PB G 360.82 6 206PB G 443.20 7 206PB G 841.28 7 100 5 M1(+E2) 206PB CG M Original assignment allowed E3, but placement excluded it. 206PB G 1025.30 10 22.9 21 206PB L 3244.21 4 4- 206PB2 L XREF=AFT(*3250)%@ 206PB CL J From E1 G's to 3+ and 4+ levels. 206PB G 227.65 5 206PB G 1047.6 18 9 206PB CG E Assignment, EG, and RI from (N,N'G) study. 206PB G 1246.46 10 22.2 21 E1 0.00170 206PB G 1560.30 8 100 5 206PB G 1903.56 10 92 4 E1 206PB G 2439.0 4 1.3 5 206PB3 G FL=803.049 206PB L 3260.0 9 6+ 206PB2 L XREF=FKMO(3256)RT(*3250)Y@ 206PB CL J From L=6 in (P,P'). 206PB G 1575.9 11 100 E2 206PB CG M FROM 204HG(A,2NG). 206PB L 3279.18 4 5- 206PB2 L XREF=AFORY%@ 206PB CL J From E1 G to 4+ level and M1 G to 6- level, also L=5 in 206PB2CL (P,P'). 206PB G 34.954 18 0.11 1 M1(+E2) 0.032 LT 40.0 5 206PB CG RI Calculated by the evaluators from measured CEL1 from 206BI 206PB2CG EC decay and theoretical CC(M1). 206PB G 262.70 3 19.3 3 M1(+E2) 0.11 LT 0.637 3 206PB G 339.85 6 206PB G 452.84 8 1.00 5 206PB G 497.06 4 97.8 10 M1(+E2) -0.090 20 0.1139 4 206PB G 895.12 5 100.0 10 M1(+E2) -0.030 3 0.0248 206PB G 1281.81 10 0.42 4 E1 0.0016 206PB G 1595.27 8 32.0 4 E1 0.0009 206PB G 2476.7 2 0.09 1 206PB L 3328 5 206PB2 L XREF=R 206PB L 3377 2 206PB2 L XREF=R@ 206PB L 3402.62 4 5- 206PB2 L XREF=AFM(3392)ORY% 206PB CL J From M1 G's to 4- and 6- levels, also E2 G's to 3- and 7- 206PB2CL levels, and also L=5 in (P,P'). 206PB G 123.415 30 0.07 1 M1(+E2) 0.13 LT 5.30 3 206PB G 158.386 21 0.26 2 M1(+E2) 0.14 LT 2.60 2 206PB G 386.20 7 1.62 3 M1(+E2) 0.35 LT 0.215 10 206PB G 462.92 10 0.17 2 206PB G 576.36 10 0.35 3 206PB G 620.48 5 18.1 2 M1(+E2) -0.33 29 0.060 9 206PB CG MR,CC From ECC, MR LE 0.26 which gives CC 0.0627 15. 206PB G 754.96 7 1.66 3 E2 0.025 206PB CG M MEASURED E2(+M1). LEVEL SCHEME REQUIRES E2. 206PB G 1018.63 8 23.8 3 M1(+E2) -0.018 3 0.0178 206PB G 1202.58 10 0.33 2 E2 0.0047 206PB G 1405.01 8 4.50 8 E1 0.0014 206PB G 1718.70 7 100.0 11 E1 206PB G 2599.6 2 0.41 3 E3 206PB CG M$MEASURED M1,E3. LEVEL SCHEME REQUIRES E3. 206PB L 3453 3 5- 206PB2 L XREF=L(*)MO(*)%@ 206PB CL J From L=5 in (P,T). 206PB L 3453.4 7 4+ 206PB2 L XREF=FL(*)RO(*)X 206PB CL J From L=4 in (P,P'). 206PB G 2650.3 7 100 B 206PB L 3483.312 206PB2 L XREF=FLR(3478)X 206PB CL J G's to 2+ levels suggest JPI of 0+, 1, 2, 3, or 4+. 206PB G 1699.5 9 54 14 B 206PB G 2682.0 4 100 18 B 206PB L 3516 3 (4+) 206PB2 L XREF=FLMRX@ 206PB CL J From G to 2+ level, L=3 in (P,D), and L=4 in (P,T). 206PB2CL Conflicting datum is L=(5) transfer in (P,P') reaction data. 206PB G 2713 3 100 206PB L 3562.84 5 5- 206PB2 L XREF=AFJOR(3558)@ 206PB CL J From L=5 in (P,P'). E1 G's to 4+ levels, but also G to 2+ 206PB2CL level. 206PB G 283.75 6 206PB G 780.66 10 206PB G 915.0 1 1.53 15 206PB G 1565.34 8 15.1 7 E1 206PB CG RI From 206BI EC decay; from (N,N'G) reaction RI = 42 14. 206PB G 1878.65 8 100 2 E1 206PB G 2759.6 10 0.69 10 206PB L 3606.2 3 2+ 206PB2 L XREF=FLMPRX 206PB CL J From L=2 in (P,T). 206PB G 957.5 9 64 13 ? 206PB G 1822.1 3 100 B 206PB L 3636 4+ 206PB2 L XREF=M 206PB CL J From L=4 in (P,T). 206PB L 3653 3 (6-) 206PB2 L XREF=R@ 206PB L 3670 7 (4-) X 206PB2 L XREF=%@ 206PB CL J L=3+5 IN (3HE,D). 206PB L 3682.913 206PB2 L XREF=FR(3675)&(3675) 206PB G 1899.6 12 100 39 ? 206PB G 2880 3 44 22 ? 206PB L 3718 2 3- 206PB2 L XREF=OR%@ 206PB CL J From L=3 in (P,P'). 206PB L 3744.317 1- 206PB2 L XREF=FGLR(3737) 206PB CL J G to 0+ and L=0 in (P,D). 206PB G 2041 2 48 13 ? 206PB G 2941 3 16 6 P ? 206PB G 3744.3 17 100 10 206PB L 3768 6 2+ 206PB2 L XREF=KM@ 206PB CL J From L=2 in (P,T). 206PB L 3775.910 5- 206PB2 L XREF=FJ(3768)OR(3772)Y 206PB CL J From L=5 in (P,P'). 206PB G 515.7 100 25 206PB G 1778.4 11 10 5 E1 ? 206PB CG M FROM 204HG(A,2NG), INCORRECTLY GIVEN AS M1. 206PB G 2092.1 12 69 19 P 206PB L 3778.512 206PB2 L XREF=F 206PB G 1995.5 12 54 26 P ? 206PB G 2314 2 100 26 ? 206PB G 2977 3 12 8 ? 206PB L 3786 7 - X 206PB2 L XREF=% 206PB CL J L=3 IN (3HE,D). 206PB L 3795 6 206PB2 L XREF=R 206PB L 3827 5 206PB2 L XREF=R@ 206PB L 3847 4 206PB2 L XREF=R 206PB L 3883 5 206PB2 L XREF=R 206PB L 3900 5 (2) 206PB2 L XREF=MOR 206PB CL J From L=(2) in (D,D') data. 206PB L 3943.713 206PB2 L XREF=F 206PB G 1520.0 11 100 37 ? 206PB G 2605 3 78 48 ? 206PB G 3141 3 97 LE P ? 206PB3 G FLAG=* 206PB L 3957.8 5 (10+) 206PB2 L XREF=DHYZ 206PB CL J From E1 G to 9- level and no other G's. 206PB CL CONFIGURATION: Primary wave function 206PB2CL component is (I13/2,-2),10+. 206PB G 1299.1 100 E1 Q 206PB G 1757.7 5 3 LE (E3) D 206PB L 3960 9-,8+ 206PB2 L XREF=MR 206PB CL J From L=9+8 in (P,T) and L=8 in (P,P'). 206PB L 3960 6+ 206PB2 L XREF=K 206PB CL J From L=6+(4) in (A,6HE). The L=(4) could be the 3963 level. 206PB L 3963 3 4+ 206PB2 L XREF=FLM(3958) 206PB CL J From L=4 in (P,T) and L=3 in (P,D). Other data are 206PB3CL G to 0+ level in (N,N'G) reaction and L= (8) in (P,P'), 206PB4CL so level is probably a multiplet. 206PB G 3963 3 100 206PB L 3971 3 206PB2 L XREF=FR(*3980) 206PB CL J Possible G's to 0+ and 2+ levels suggest JPI = 1+, 1-, or 2+. 206PB G 3168 3 100 14 ? 206PB G 3971 3 55 17 P 206PB L 3980 3 (2-) X 206PB2 L XREF=@ 206PB L 3989 3 206PB2 L XREF=FLR(*3980) 206PB CL J G's to 2+ and 4+ levels suggest JPI = 2+, 3+, 3-, or 4+; but 206PB2CL L=(0) in (P,D) suggests JPI = 0- or 1-. 206PB G 2305 2 100 27 ? 206PB G 3186 3 59 14 206PB L 3994 3 (5-) X 206PB2 L XREF=@ 206PB L 3997 3 206PB2 L XREF=FPR 206PB G 3997 3 100 206PB L 400040 206PB2 L XREF=M 206PB CL L In (P,T) assigned as 10+, 12+ and possibly 8+. There is a 206PB2CL 12+ at 4027 and a possible 8+ at 3963, which might imply 10+ 206PB3CL for this level. 206PB L 4000.7 8 206PB2 L XREF=X 206PB G 1764.2 7 100 B 206PB L 4005.310 (4+) 206PB2 L XREF=FLR% 206PB CL J From L=(4) in (P,P'), L=5 in (P,D), and possible G's to 4+ 206PB2CL levels. 206PB G 1075.9 9 88 47 ? 206PB G 2008.0 12 100 26 ? 206PB L 4010 3 206PB2 L XREF=F@ 206PB G 3207 3 100 206PB L 4027.3 7 12+ 202 NS 3 206PB2 L XREF=DZ 206PB3 L MOMM1=-1.795 22 $ MOME2=0.51 2 206PB CL J From E3 G to 9- level and expected presence of I13/2,-2,12+ 206PB2CL state. 206PB CL CONFIGURATION: Primary wave function component is (I13/2,-2). 206PB CL T Weighted average of 200 NS 14 (71BE37), 198 NS 6 (79MA37), 206PB2CL 185 NS 15 (83ST15), and 205 NS 4 (93BL02). 206PB CL MOMM1 From 89RA17 evaluation based on G-FACTOR = -0.1496 18 206PB2CL of 83ST15. Others: G-FACTOR = -0.155 4 (72NA08) 206PB2CL and -0.1496 18 (83ST15). 206PB CL MOME2 From 89RA17 evaluation based on 206PB2CL MOME2(200PB,12+)/MOME2(206PB,12+) = 1.553 10 (79MA37). 206PB G 69.6 2.8 4 E2 32.8 Q 206PB CG RI FROM 204HG(A,2NG). 206PB G 1368.7 100 4 E3 0.0079 Q 206PB CG RI FROM 204HG(A,2NG). 206PB L 4035 3 206PB2 L XREF=FM(4030) 206PB G 3232 3 100 206PB L 4045 3 206PB2 L XREF=FR@ 206PB CL J From assignments of 6+ or 7- from L=(6,7) in (P,P') 206PB2CL and J LE 4 from G to 2+ level, level could be a doublet. 206PB G 3242 3 100 206PB L 4051 3 206PB2 L XREF=F% 206PB G 4051 3 100 206PB L 4066 3 5- 206PB2 L XREF=FJR(4059)@ 206PB CL J From L=(5) in (P,P') and L=5 in (T,P). G to 2+ level 206PB2CL suggests J LE 5, so level may be a doublet. 206PB G 3263 3 100 206PB L 4076 3 206PB2 L XREF=FR@ 206PB CL J G to 2+ level suggests J LE 4. 206PB G 3273 3 100 206PB L 4.1E+310 0 206PB2 L XREF=U% 206PB CL J From L=0 in (3HE,N), but with large uncertainty in the 206PB2CL level energy. 206PB L 4102 6 2+ 206PB2 L XREF=Q(4090)R(4107)&(4107) 206PB3 L BE2=0.23 2 206PB CL J JPI=2+ in (E,E') and L=2 in (P,P'). 206PB CL T If level decays only to 0+ ground state, BE2UP=0.23 implies 206PB2CL T(4102) = 1.1 FS. Hence, T(4102) LE 1.1 FS. 206PB CL BE2 From (e,e') reaction (68ZI02). 206PB L 4116 3 206PB2 L XREF=J(*4119)LM 206PB CL J Assignments are 4+ from (P,T), (5+) from (P,D) reaction, and 206PB3CL 6+ from (P,P'), so level may be a multiplet. 206PB L 4116.718 2+ 206PB2 L XREF=FGJ(*4119)X#(4111) 206PB CL J From JPI=2+ in (G,G'). 206PB G 995.1 9 24 8 ? 206PB G 2775.0 14 71 16 P ? 206PB G 4116.7 18 100 8 206PB CG E E=4115.9 KEV 6 IN 205PB(N,G), E=THERMAL. 206PB L 4120 3 (6-,7-) X 206PB2 L XREF=@ 206PB L 4123 3 6+ 206PB2 L XREF=J(*4119)R 206PB CL J From L=6 in (P,P') reaction. 206PB L 4142 4 (3-) 206PB2 L XREF=MR% 206PB CL J From L=(3) in (P,T). 206PB L 4168 4 (3-) 206PB2 L XREF=R 206PB CL J From L=(3) in (P,P'). 206PB L 4187 3 206PB2 L XREF=FRP(*4200) 206PB G 2503 3 100 ? 206PB L 4212 3 1,2 206PB2 L XREF=FP(*4200) 206PB CL J From G to 0+ level. 206PB G 4212 3 100 206PB L 4221 3 (3-,4-) X 206PB2 L XREF=@ 206PB L 4222 6 (4+) 206PB2 L XREF=MR 206PB CL J From L=(4) in (P,P') and L=(4) in (P,T). 206PB L 4238.211 5- 206PB2 L XREF=FJR% 206PB CL J From L=5 in (T,P). L=(2) in (P,P'), so level may be 206PB2CL multiplet. G is to 6- level. 206PB G 1854.1 11 100 206PB L 4243 3 (7-,8-) X 206PB2 L XREF=@ 206PB L 4257 3 (5-,7-) X 206PB2 L XREF=@ 206PB L 4290 6 (3-) 206PB2 L XREF=R% 206PB CL J From L=(3) in (P,P'). 206PB L 4317 3 (2-) X 206PB2 L XREF=@ 206PB L 4320 4+ 206PB3 L BE4=0.22 2 206PB2 L XREF=OQ 206PB CL J From E4 excitation in (E,E'), also L=4 in (D,D'). 206PB CL BE4 From (e,e') reaction (68ZI02). 206PB L 4330.719 1- 206PB2 L XREF=FGL% 206PB CL J From G(THETA) and POL(G) in (G,G'). Also L=0 206PB2CL in (P,D) and G's to 0+ and 1+ levels. 206PB G 2627 3 114 LE @ ? 206PB G 4330.7 19 100 14 206PB L 4340 3 (4+) 206PB2 L XREF=FR(4333) 206PB CL J From L=(4) in (P,P'), but JPI = 1,2+ from 206PB2CL G to 0+ level; so this level may be a doublet. 206PB G 4340 3 100 206PB L 4347 3 6+ 206PB2 L XREF=FJ(4352)LR(4357) 206PB CL J From L=6 in (P,P') and L=6 in (T,P). G placement to 2+ level 206PB2CL suggests J LE 4, so level may be a doublet. 206PB G 3544 3 100 206PB L 4373 3 206PB2 L XREF=@ 206PB L 4385 3 (5-) 206PB2 L XREF=FL(4370)R(4391)% 206PB CL J From L=(5) transfer in (P,P') reaction and G to 4+ level. 206PB G 2701 3 100 ? 206PB L 4410 3 206PB2 L XREF=F&(4413) 206PB CL J G's to 2+ levels suggest J LE 4. 206PB G 2627 3 40 LE @ ? 206PB G 3607 3 100 18 P 206PB L 4420 4 206PB2 L XREF=FR 206PB CL J Possible G's to 0+ and 3+ levels suggest JPI = 1+ or 2+. 206PB G 2717 3 100 33 P ? 206PB G 3079 3 84 LE @ ? 206PB G 4420 4 18 7 206PB L 4427 3 206PB2 L XREF=F 206PB CL J G to 2+ level suggests J LE 4. 206PB G 3624 3 100 ? 206PB L 4433.410 206PB2 L XREF=F 206PB CL J G's to 0+ and 2+ levels suggest JPI = 1+, 1-, or 2+. 206PB G 1239.0 10 100 29 P 206PB3 G FL=3194.3 206PB G 3631 3 92 46 206PB G 4434 4 42 21 206PB L 4459 3 (5-) 206PB2 L XREF=F(4459)R(4456) 206PB CL J From L=(5) transfer in (P,P') reaction. G is to 2+. 206PB G 3656 3 25 13 206PB L 4469.319 206PB2 L XREF=FR(4474) 206PB CL J Assignments are 5- from L=5 transfer in (P,P') reaction and 206PB2CL 1+, 1-, or 2+ from G to 0+ level; so level may be a doublet. 206PB G 2235 2 100 41 P ? 206PB G 4469.2 19 38 9 206PB L 4470 40 (6,7) 206PB2 L XREF=K 206PB CL J From L=(6,7) in (A,6HE). 206PB L 4483.019 206PB2 L XREF=FM 206PB CL J G to 0+ level suggests JPI = 1+, 1-, or 2+. 206PB G 4482.9 19 100 206PB L 4498 6 (5-,6+) 206PB2 L XREF=LR% 206PB CL J From L=(5,6) transfer in (P,P') reaction. 206PB L 4512 3 206PB2 L XREF=F 206PB CL J G to 2+ level suggests J LE 4. 206PB G 3709 3 100 206PB L 452040 9- 206PB2 L XREF=M 206PB CL J From L=9 in (P,T). 206PB L 4525 3 206PB2 L XREF=F 206PB CL J From G to 2+ level, J LE 4. 206PB G 3722 3 100 206PB L 4534 4 5- 206PB2 L XREF=R@ 206PB CL J From L=5 transfer in (P,P') reaction. 206PB L 456310 206PB2 L XREF=% 206PB CL L=(3) IN (3HE,D). 206PB L 4575 6 (7-,8+) 206PB2 L XREF=M(4560)R(4580)@ 206PB CL J Assignment is (7-) from L=(7) in (P,T) 206PB2CL or 8+ from L=8 in (P,P'). 206PB L 4595 5 206PB2 L XREF=R 206PB L 4606 4 1- 206PB2 L XREF=FG 206PB CL J From interpretation of (G,G') reaction data. G's are to 0+ 206PB2CL and 2+ levels. 206PB G 3141 3 326 LE P ? 206PB3 G FLAG=* 206PB G 4606 4 100 37 206PB L 4617 8 (3-) 206PB2 L XREF=LR 206PB CL J From L=(3) in (P,P'). 206PB L 462610 206PB2 L XREF=% 206PB L 4648 4 206PB2 L XREF=FJ(4634)R 206PB CL J Possible G's to 0+ and 3+ levels suggest JPI = 1+ or 2+. 206PB G 3307 3 100 50 P ? 206PB G 4648 4 27 13 206PB L 4657 3 206PB2 L XREF=F 206PB CL J G to 2+ level suggests J LE 4. 206PB G 2460 3 100 48 P ? 206PB3 G FL=2196.7 206PB G 3854 3 74 13 P 206PB L 4664 4 5 206PB2 L XREF=R 206PB CL J From L=5 in (P,P'). 206PB L 4673 3 (8-) X 206PB2 L XREF=@ 206PB L 4675 3 206PB2 L XREF=F% 206PB CL G to 2+ level suggests J LE 4. L=(2) IN (3HE,D). 206PB G 3872 3 100 206PB L 4687 3 (2-) X 206PB2 L XREF=@ 206PB L 4697 3 206PB2 L XREF=FR(4691)% 206PB G 2385 2 100 64 ? 206PB G 3894 3 100 21 206PB L 4717 4 206PB2 L XREF=FR(4710) 206PB CL J Assignments are (4+,5-) from L=(4,5) in (P,P') and J LE 2 206PB2CL from G to 0+ level, so this level may be a doublet. 206PB G 4717 4 100 206PB L 4728 3 (9-) X 206PB2 L XREF=@ 206PB L 4730 3 206PB2 L XREF=FR 206PB CL J G's to 2+ levels suggest J LE 4. 206PB G 2495 3 20 14 P ? 206PB G 2583 3 100 39 P ? 206PB G 3927 3 45 16 P 206PB L 4740 6 206PB2 L XREF=JR%@ 206PB L 4756 3 206PB2 L XREF=FL 206PB CL J G to 2+ level suggests J LE 4. 206PB G 3953 3 100 206PB L 4758.6 6 (10+) 206PB2 L XREF=Y 206PB CL J 2100.2G D TO 9-. 206PB G 2100.2 4 100 D D 206PB L 4763 4 1,2 206PB2 L XREF=FR(4770) 206PB CL J G to 0+ level 206PB G 4763 4 100 206PB L 4782 4 1,2 206PB2 L XREF=F@ 206PB CL J G's to 0 and 1+ levels 206PB G 3079 3 626 LE @ ? 206PB G 4782 4 100 47 206PB L 4793 5 5 206PB2 L XREF=R 206PB CL J From L=5 in (P,P'). 206PB L 4795 3 206PB2 L XREF=F% 206PB CL J G to 2+ suggests J LE 4. 206PB G 3992 3 100 206PB L 4806 3 (5-,6+) 206PB2 L XREF=JLP(4800)R 206PB CL J From L=(5,6) in (P,P'). 206PB L 4818 3 (10+) X 206PB2 L XREF=@ 206PB L 4828 3 (7-) 206PB2 L XREF=LR 206PB CL J From L=(7) in (P,P'). 206PB L 4833 3 (5-) X 206PB2 L XREF=@ 206PB L 4841.8 6 10+ 206PB2 L XREF=QY 206PB CL J From E10 excitation in (E,E'). 206PB G 2183.4 4 100 D D 206PB L 4848 4 1,2 206PB2 L XREF=FL 206PB CL J G to 0+ level 206PB G 4848 4 206PB L 4860 6 (6+) 206PB2 L XREF=R 206PB CL J From L=(6) in (P,P'). 206PB L 4862 3 (3-) X 206PB2 L XREF=@ 206PB L 4878 3 (6-) 206PB2 L XREF=R@ 206PB L 4889 5 (3-) 206PB2 L XREF=R 206PB CL J From L=(3) in (P,P'). 206PB L 4900 4 (7-) 206PB2 L XREF=MR 206PB CL J From L=(7) in (P,T). 206PB L 4912 3 (4+) X 206PB2 L XREF=@ 206PB L 4914 3 (3-) 206PB2 L XREF=FR 206PB CL J From L=(3) in (P,P'). 206PB2CL level. 206PB G 4111 3 100 ? 206PB L 4925 3 (5+) X 206PB2 L XREF=@ 206PB L 4939 4 (6+) 206PB2 L XREF=R 206PB CL J From L=(6) in (P,P'). 206PB L 4941 3 (7+) X 206PB2 L XREF=@ 206PB L 4966 3 (3-) 206PB2 L XREF=FR(4960) 206PB CL J From L=(3) in (P,P'). 206PB2CL level. 206PB G 4163 3 100 ? 206PB L 4973.110 1- 206PB2 L XREF=FG 206PB CL J From interpretation of (G,G') data and G to 0+ 206PB2CL level. 206PB G 4973 1 100 206PB3 G FLAG=* 206PB L 4979 3 206PB2 L XREF=@ 206PB L 4986 3 (3-) 206PB2 L XREF=R 206PB CL J From L=(3) in (P,P'). 206PB L 5007 4 (4+) 206PB2 L XREF=R 206PB CL J From L=(4) in (P,P'). 206PB L 5011 3 (9+) X 206PB2 L XREF=@ 206PB L 5025 5 206PB2 L XREF=R 206PB L 5038.1 7 206PB2 L XREF=FGLR(5045) 206PB CL J Assignment of 1- from (G,G') and L = (3) in (P,D), 206PB3CL so level could be a doublet. G to 0+ level. 206PB G 4235 * 206PB G 5038 1 206PB L 5040 10+ 206PB2 L XREF=Q 206PB CL J From E10 excitation in (E,E'). 206PB L 5069 6 206PB2 L XREF=L(5050)R 206PB L 5078 3 (3+) X 206PB2 L XREF=@ 206PB L 5089 3 (3-,4+) 206PB2 L XREF=FLR 206PB CL J From L=(3,4) in (P,P'), L=(3) in (P,D), and G to 2+ level. 206PB G 4286 3 206PB L 5100 (7-) 206PB2 L XREF=M 206PB CL J From L=(7) in (P,T). 206PB L 5111 5 (4+) 206PB2 L XREF=R 206PB CL J From L=(4) in (P,P'). 206PB L 5112 3 (6+) X 206PB2 L XREF=@ 206PB L 5126 6 206PB3 L BE2=0.0038 7 206PB2 L XREF=L(*5131)QR 206PB CL J Assignments of 2+ from E2 excitation in (E,E') 206PB2CL and (5-) from L=(5) in (P,P') suggest this 206PB3CL level may be a doublet. 206PB CL T From BE2UP = 0.0038 7, T(5126) LE 21 FS. 206PB CL BE2 From (e,e') reaction (87SC19). 206PB L 5134 6 (8+) 206PB2 L XREF=JL(*5131)R@(5149) 206PB CL J From L=(8) in (T,P). 206PB L 5166 4 206PB2 L XREF=LR 206PB L 5180 4 206PB2 L XREF=F 206PB CL J G to 0+ level suggests J LE 2. 206PB G 5180 4 100 206PB L 5195 4 (2+) 206PB2 L XREF=FLR 206PB CL J From L=(3) in (P,D). 206PB G 5195 4 100 206PB L 5209 5 206PB2 L XREF=L(5200)R 206PB L 5217.6 7 12+ Y 206PB2 L XREF=YZ 206PB CL J$1190G M1,E2 TO 12+; 459G TO (10+). 206PB G 459.1 5 12 4 D 206PB3 G FL=4758.6 206PB G 1190.3 4 25 4 M1,E2 D 206PB L 5236.110 206PB2 L XREF=FR(5227) 206PB CL J G to 0+ level suggests J LE 2. 206PB G 5236 100 206PB L 5247 4 2+ 206PB2 L XREF=FJR 206PB CL J From L=2 in (T,P) and G to 0+ level. 206PB2CL L=(3) in (P,P') reaction suggests that level is a doublet. 206PB G 5247 4 100 ? 206PB L 5261 5 3- 206PB2 L BE3=0.048 2 206PB2 L XREF=Q 206PB CL J From E3 excitation in (E,E'). 206PB CL BE3 From (e,e') reaction (87SC19). 206PB L 5276 4 (1-) 206PB2 L XREF=FLR(*5279) 206PB CL J From L=(0) in (P,D) and G to 2+ level. 206PB G 4473 4 100 206PB L 5282 4 206PB2 L XREF=FR(*5279) 206PB CL J G to 0+ level suggests J LE 2. 206PB G 5282 4 100 ? 206PB L 5293 6 (3-,2+) 206PB2 L XREF=J(5286)Q(5288)R(5296) 206PB CL J From E3,E2 excitation in (E,E'). 206PB L 5315 4 (2+) 206PB2 L BE2=0.0048 8 206PB2 L XREF=FMQ(5309)R(5309)@ 206PB CL J From E2 excitation in (E,E') and G to 0+ level. 206PB CL T From BE2UP = 0.0048, T(5315) LE 14 FS. 206PB CL BE2 From (e,e') reaction (87SC19). 206PB G 5315 4 100 206PB L 5328 6 (2+,3-) 206PB2 L XREF=JLR@(5333) 206PB CL J Assignments are 3- from L=(3) in (P,P'), 206PB2CL (2+) from L=(2) in (P,T), and (2+,3+,4+) 206PB3CL from L=(3) in (P,D). 206PB L 5350 4 206PB2 L XREF=FM 206PB CL J G to 0+ level suggests J LE 2. 206PB G 5350 4 100 ? 206PB L 5362 6 (6+) 206PB2 L XREF=KR 206PB CL J From L=(6) in (A,6HE). 206PB L 5379 4 206PB2 L XREF=FJM 206PB CL J G to 2+ level suggests J LE 4. 206PB G 4576 4 100 206PB L 538060 9 206PB2 L XREF=K 206PB CL J From L=9 in (A,6HE). 206PB L 5390 4 206PB2 L XREF=F 206PB CL J G to 0+ level suggests J LE 2. 206PB G 5390 4 100 206PB L 5403 6 206PB2 L XREF=R 206PB L 5412 11- 206PB2 L XREF=KM 206PB CL J From L=11 in (P,T) and (A,6HE). 206PB L 5415 4 (4+) 206PB2 L XREF=FL(5420)R(5422) 206PB CL J From L=(4) in (P,P') and G to 2+ level. 206PB G 4612 4 100 ? 206PB L 544010 (3-) 206PB2 L XREF=J(5444)R(5435) 206PB CL J From L=(3) in (T,P). 206PB L 5452 8 206PB2 L XREF=QR 206PB CL J Assignments of (4+) from L=(4) in (P,P') 206PB2CL and 2+,3- from E2,E3 excitation in (E,E') may 206PB3CL indicate that this level is a doublet. 206PB L 5463 6 (3-) 206PB2 L XREF=R 206PB CL J From L=(3) in (P,P'). 206PB L 5472.120 1(-) 206PB2 L XREF=G 206PB CL J From interpretation of (G,G') reaction data. 206PB G 5472 2 100 206PB L 547510 6+ 206PB2 L XREF=J 206PB CL J From L=6 in (T,P). 206PB L 5485 4 (4+) 206PB2 L XREF=R 206PB CL J From L=(4) in (P,P'). 206PB L 549310 2+ 206PB2 L XREF=L(*5500)Q 206PB3 L BE2=0.0038 7 206PB CL J From E2 excitation in (E,E'). 206PB CL T From BE2UP = 0.0038, T(5493) LE 15 FS. 206PB CL BE2 From (e,e') (87SC19). 206PB G 4329 100 206PB L 5513 4 206PB2 L XREF=FL(5500)R(5507) 206PB CL J G to 0+ level suggests J LE 2. 206PB G 5513 4 100 ? 206PB L 5522 4 206PB2 L XREF=F 206PB CL J G to 0+ level suggests J LE 2. 206PB G 5522 4 100 ? 206PB L 5533 6 (4+) 206PB2 L XREF=R 206PB CL J From L=(4) in (P,P'). 206PB L 5542 8 1- 206PB2 L XREF=JR 206PB CL J From L=1 in (T,P). 206PB L 5553.8 7 12+ Y 206PB2 L XREF=YZ 206PB CL J$1527G M1 TO 12+. 94PO20 ASSIGNED JPI=(11+) IN 204HG(9BE,A3NG). 206PB G 336.2 4 100 25 M1,E2 D 206PB G 1526.6 5 67 25 M1 206PB CG E, RI ARE FROM 204HG(A,2NG). M IS FROM 204HG(9BE,A3NG). 206PB L 5561 8 (4+) 206PB2 L XREF=M(5555)QR 206PB CL J From L=(4) in (P,P'). 206PB L 5581.110 1- 206PB2 L XREF=FGQ 206PB CL J From interpretation of (G,G') data. 206PB G 5581 1 100 206PB L 5588 8 (5) 206PB2 L XREF=R 206PB CL J From L=(5) in (P,P'). 206PB L 5602 4 (2+) 206PB2 L XREF=FJR 206PB CL J From L=(2) in (T,P) and G to 2+ level. 206PB G 4799 4 100 206PB L 561060 (9-) 206PB2 L XREF=M 206PB L 5616.110 (1-) 206PB2 L XREF=FGQR 206PB CL J From interpretation of (G,G') and (E,E') reaction data. 206PB G 5616 1 100 206PB L 563710 0 206PB2 L XREF=J 206PB CL J From L=0 in (T,P). 206PB L 5640 8 (3) 206PB2 L XREF=R 206PB CL J From L=(3) in (P,P'). 206PB L 5652 8 206PB2 L XREF=LR 206PB L 5676 6 206PB2 L XREF=Q(5682)R 206PB CL J In (e,e') JPI=(1-,2+) is assigned to the combination of 206PB2CL levels at 5682 20 and 5692 20. Since there is a 1- at 5694, 206PB3CL this level might be 2+. 206PB L 5687 4 (4+) 206PB2 L XREF=JR 206PB CL J From L=(4) in (T,P). 206PB L 5694.120 1- 206PB2 L XREF=GQ 206PB CL J From interpretation of (G,G') reaction data. 206PB G 4235 * ? 206PB3 G FL=1466.80 206PB G 5694 2 206PB L 5702 8 (5-) 206PB2 L XREF=MR 206PB CL J From L=(5) in (P,P'). 206PB L 5715 7 206PB2 L XREF=QR 206PB CL J In (e,e') JPI=(1-,2+) is assigned to the combination of 206PB2CL levels at 5715 20 and 5732 20. Since there is a 1- at 5732, 206PB3CL this level might be 2+. 206PB L 5722 7 206PB2 L XREF=R 206PB L 5732.110 1- 206PB2 L XREF=GQ 206PB CL J From interpretation of (G,G') reaction data. 206PB G 4272 ? 206PB3 G FL=1466.80 206PB G 5732 1 206PB L 5741 4 206PB2 L XREF=FL(*5750)R(5747) 206PB CL J G to 2+ level suggests J LE 4. 206PB G 4938 4 100 206PB L 5760 4 1- 206PB2 L XREF=GL(*5750)QR 206PB CL J From interpretation of (G,G') reaction data. 206PB G 5760 4 100 206PB L 5775 4 (1-) 206PB2 L XREF=FJ(5782)R 206PB CL J From L=(1) in (T,P). 206PB G 4972 4 100 ? 206PB L 5779 8 (5) 206PB2 L XREF=R 206PB CL J From L=(5) in (P,P'). 206PB L 5783.1 7 13+ Y 206PB2 L XREF=YZ 206PB CL J$1755G M1,E2 TO 12+. 206PB G 229.4 9.0 15 206PB3 G FL=5553.8 206PB CG FROM 204HG(9BE,A3NG). 206PB G 565.5 5 20 7 206PB CG E, RI ARE FROM 204HG(A,2NG). 206PB G 1755.5 4 100 20 M1,E2 D 206PB L 5796 7 (4,5) 206PB2 L XREF=R 206PB CL J From L=(4,5) in (P,P'). 206PB L 5800 (8+) 206PB2 L XREF=M 206PB CL J From L=(8) in (P,T). 206PB L 5800.110 (1+) 206PB3 L BM1=1.0 3 206PB2 L XREF=GQ 206PB CL J From interpretation of (G,G') and M1 excitation in (E,E'). 206PB CL T From BM1UP = 1.0, T(5800) LE 0.61 FS. 206PB CL BM1 From (e,e') (87SC19). 206PB G 5800 1 100 206PB L 5817 3 1- 206PB2 L XREF=GR 206PB CL J From interpretation of (G,G') reaction data. 206PB G 4115 206PB G 4356 206PB G 5817 3 206PB L 5832 4 206PB2 L XREF=F 206PB CL J G to 2+ level suggests J LE 4. 206PB G 5029 4 100 ? 206PB L 5847.120 (1-) 206PB2 L XREF=F(5840)GQR 206PB CL J From interpretation of (G,G') reaction data. 206PB G 5847 2 100 206PB L 5857.110 1- 206PB2 L XREF=GQR 206PB CL J From interpretation of (G,G') reaction data. 206PB G 5857 1 100 206PB L 5887 4 206PB2 L XREF=J(5894)R 206PB L 5903 1 1- 206PB2 L XREF=GLQ 206PB CL J From interpretation of (G,G') and E2,E1 excitation in (E,E'). 206PB G 4196 206PB G 5903 1 206PB L 5911 7 (4+) 206PB2 L XREF=R 206PB DL E Author's value of 5011 corrected to 5911. 206PB CL J From L=(4) transfer in (P,P') 206PB L 5940 8 206PB2 L XREF=FJ(5944)R(5949) 206PB CL J G to 0+ level suggests J LE 2. 206PB G 5936 4 100 ? 206PB L 5959 5 206PB2 L XREF=R 206PB L 5974 5 2 206PB2 L XREF=QR 206PB CL J From M2,E2 excitation in (E,E'). 206PB L 5994 4 206PB2 L XREF=FR 206PB CL J G to 0+ level suggests J LE 2. 206PB G 5994 4 100 206PB L 6000 5 206PB2 L XREF=LR 206PB L 6023 7 206PB2 L XREF=R 206PB L 6034.2 7 14+ Y 206PB2 L XREF=YZ 206PB CL J$816G M1 TO 13+. 206PB G 250.8 5 44 11 M1 D 206PB G 816.5 5 100 22 E2 D 206PB G 2007.3 5 78 11 E2,M3 D 206PB L 6040 5 3- 206PB2 L XREF=JR 206PB CL J From L=3 in (T,P). 206PB L 6065 8 206PB2 L XREF=R 206PB L 6071 4 206PB2 L XREF=R 206PB L 6083 7 206PB2 L XREF=R 206PB L 6100 (9-) 206PB2 L XREF=KM 206PB CL J From L=(9) in (A,6HE) and L=8(+9) in (P,T). 206PB2CL In (P,T) study assigned as doublet including 8+ component. 206PB L 611512 2+ 206PB3 L BE2=0.0185 7 206PB2 L XREF=J(6128)Q(6103)R 206PB CL J From L=2 in (T,P) and E2 excitation in (E,E'). 206PB CL T From BE2UP = 0.0185, T(6115) LE 1.8 FS. 206PB CL BE2 From (e,e') (87SC19). 206PB L 6146 7 206PB2 L XREF=R 206PB L 6154 5 206PB2 L XREF=R 206PB L 6167 6 206PB2 L XREF=R 206PB L 6180 8+ 206PB2 L XREF=K 206PB CL J From L=8 in (A,6HE). 206PB L 618110 2+ 206PB2 L BE2=0.0144 7 206PB2 L XREF=J(6176)Q(6187)R 206PB CL J From L=2 in (T,P) and E2 excitation in (E,E'). 206PB CL T From BE2UP = 0.0144, T(6181) LE 2.2 FS. 206PB CL BE2 From (e,e') (87SC19). 206PB L 6197 4 206PB2 L XREF=F 206PB CL J G to 0+ level suggests J LE 2. 206PB G 6197 4 100 206PB L 6198 7 (6) 206PB2 L XREF=R 206PB CL J From L=(6) in (P,P'). 206PB L 6220 (1+) 206PB2 L XREF=G 206PB L 6236 4 206PB2 L XREF=FR(6229) 206PB G 6236 4 100 ? 206PB L 6251 4 206PB2 L XREF=F 206PB CL J G to 0+ level suggests J LE 2. 206PB G 6251 4 100 206PB L 6260 4 206PB2 L XREF=FR 206PB CL J Assignments of J LE 2 from G to 0+ level and L=(5) 206PB2CL in (P,P') suggest that this level may be a doublet. 206PB G 6260 4 100 206PB L 6284 8 206PB2 L XREF=R 206PB L 6302 7 206PB2 L XREF=R 206PB L 6314 6 (2+,3-) 206PB2 L XREF=QR 206PB CL J From E2,E3 excitation in (E,E'). 206PB L 6332 6 206PB2 L XREF=R 206PB L 6346 6 2+ 206PB3 L BE2=0.0046 6 206PB2 L XREF=QR 206PB CL J From E2 excitation in (E,E'). 206PB CL T From BE2UP = 0.0046, T(6346) LE 6.0 FS. 206PB CL BE2 From (e,e') (87SC19). 206PB L 6382.6 9 (14+) 206PB2 L XREF=RZ 206PB G 348.4 5 100 206PB3 G FL=6034.2 206PB CG FROM 204HG(9BE,A3NG). 206PB L 6410 8 8+ 206PB2 L XREF=JR 206PB CL J From L=8 in (T,P). 206PB L 642810 2+ 206PB3 L BE2=0.0038 6 206PB2 L XREF=QR 206PB CL J From E2 excitation in (E,E'). 206PB CL T From BE2UP = 0.0038, T(6428) LE 6.8 FS. 206PB CL BE2 From (e,e') (87SC19). 206PB L 6430.7 8 15- Y 206PB2 L XREF=Y 206PB CL J$2403G E3 TO 12+. 206PB G 2403.4 4 100 E3 D 206PB CG M$MEASURED M2,E3. LEVEL SCHEME REQUIRES E3. 206PB L 6444 7 206PB2 L XREF=R 206PB L 6459 7 206PB2 L XREF=MR 206PB L 6479 7 (6+) 206PB2 L XREF=J(6472)R 206PB CL J From L=(6) in (T,P). 206PB L 6496 9 206PB2 L XREF=JR 206PB L 6510.110 1- 206PB2 L XREF=G 206PB CL J From interpretation of (G,G') reaction data. 206PB G 6510 1 100 206PB L 6524 9 6+ 206PB2 L XREF=JR 206PB CL J From L=6 in (T,P). 206PB L 654310 2- 206PB3 L BM2=2.92 27 206PB2 L XREF=QR 206PB CL J From M2 excitation in (e,e'). 206PB CL T From BM2UP = 2.92, T(6543) LE 73 FS. 206PB CL BM2 From (e,e') (87SC19). 206PB L 6565.3 8 (15-) Y 206PB2 L XREF=YZ 206PB CL J$531G D TO 14+. 206PB G 531.1 4 100 D D 206PB3 G FL=6034.2 206PB L 6565.3+X 13 [17-] 206PB CL J PREDICTED BY THEORY. 206PB2 L XREF=Z 206PB G X 206PB L 6573 8 6+ 206PB2 L XREF=J(6568)L(6560)R 206PB CL J From L=6 in (T,P). 206PB L 6593 9 206PB2 L XREF=R 206PB L 6617 8 206PB2 L XREF=R 206PB L 6620 (1+) 206PB2 L XREF=G 206PB L 663010 (8+) 206PB2 L XREF=JR 206PB CL J From L=(8) in (T,P). 206PB L 6655 8 206PB2 L XREF=R 206PB L 668811 8+ 206PB2 L XREF=JR 206PB CL J From L=8 in (T,P). 206PB L 669810 6+ 206PB2 L XREF=J(6716)R(6692) 206PB CL J From L=6 in (T,P). 206PB L 6723.110 1- 206PB2 L XREF=G 206PB CL J From interpretation of (G,G') reaction data. 206PB G 6723 1 100 206PB L 6761 5 206PB2 L XREF=R 206PB L 6806 6 206PB2 L XREF=R 206PB L 6820.6 7 1- 206PB2 L XREF=G 206PB CL J From interpretation of (G,G) reaction data. 206PB G 5036 206PB G 6821 1 206PB L 683060 206PB2 L XREF=M 206PB L 6850 (1+) 206PB2 L XREF=G 206PB L 6851.1+X 17 (17-) Y 206PB2 L XREF=YZ 206PB CL J 286G M1 TO [17-]. 206PB G 285.8 100 M1 D 206PB L 694615 206PB2 L XREF=J 206PB L 7000 206PB2 L XREF=L 206PB L 7063.120 1(-) 206PB2 L XREF=G 206PB CL J From interpretation of (G,G) reaction data. 206PB G 7063 2 100 206PB L 7078 4 1(-) 206PB2 L XREF=G 206PB CL J From interpretation of (G,G) reaction data. 206PB G 5615 206PB G 7078 4 206PB L 7127.120 (1-) 206PB2 L XREF=G 206PB CL J From interpretation of (G,G) reaction data. 206PB G 7127 2 100 206PB L 7202 4 1(-) 206PB2 L XREF=G 206PB CL J From interpretation of (G,G) reaction data. 206PB G 7202 4 100 206PB L 7310 1- 206PB2 L XREF=G 206PB CL J From interpretation of (G,G) reaction data. 206PB G 6509 206PB G 7310 206PB L 7350 GE 9 206PB2 L XREF=KM(7370) 206PB CL J From L GT 8 in (P,T). 206PB L 7423 4 1- 206PB2 L XREF=G 206PB CL J From interpretation of (G,G) reaction data. 206PB G 5963 ? 206PB CG E$ORIGINAL VALUE OF 5693 KEV FROM (G,G') (80CH22) IS PROBABLY A 206PB2CG TYPOGRAPHICAL ERROR. 206PB G 7423 4 206PB L 7464.510 1,2 206PB2 L XREF=G 206PB CL J From excitation in (G,G'). 206PB G 5760 206PB G 7464 4 206PB L 7487 4 (1-) 206PB2 L XREF=G 206PB CL J From interpretation of (G,G) reaction data. 206PB G 7487 4 100 206PB L 7506 2 (1) 206PB2 L XREF=GL(7500) 206PB CL J From interpretation of (G,G) reaction data. 206PB G 5798 * 206PB G 7506 2 206PB L 7543.120 1- 206PB2 L XREF=G 206PB CL J From interpretation of (G,G) reaction data. 206PB G 7543 2 100 206PB L 7570 4 1 206PB2 L XREF=G 206PB CL J From interpretation of (G,G) reaction data. 206PB G 7570 4 100 206PB L 7661.6+X 19 (18-) Y 206PB2 L XREF=Z 206PB CL J 810G D TO (17-). 206PB G 810.5 100 D D 206PB L 775415 (4+) 206PB2 L XREF=JL 206PB CL J From L=(4) in (T,P). 206PB L 7758.9+X 22 (19+) 7.5 NS 9 Y 206PB CL T FROM 204HG(9BE,A3NG) 206PB2 L XREF=Z 206PB CL J 97.3G E1 TO (18-). 206PB G 97.3 100 E1 D 206PB L 7815.210 1,2 206PB2 L XREF=GJ(7830) 206PB CL E Probably an unresolved multiplet in (G,G') (80CH22). 206PB CL J From excitation in (G,G'). 206PB G 7815 206PB L 7846.210 1 206PB2 L XREF=G 206PB CL J From interpretation of (G,G) reaction data. 206PB CL E Probably an unresolved multiplet (80CH22). 206PB G 7846 100 206PB L 785015 8+ 206PB2 L XREF=JM(*7860) 206PB CL J From L=8 in (T,P). 206PB L 787415 8+ 206PB2 L XREF=JM(*7860) 206PB CL J From L=8 in (T,P). 206PB L 7880 2 1 206PB2 L XREF=G 206PB CL J From interpretation of (G,G) reaction data. 206PB G 7078 206PB G 7880 2 206PB L 7890.411 1 206PB2 L XREF=G 206PB CL J From interpretation of (G,G) reaction data. 206PB G 6724 206PB G 7891 4 206PB L 7903 4 1 206PB2 L XREF=GJ 206PB CL J From interpretation of (G,G) reaction data. 206PB G 7903 4 100 206PB L 7972 4 1 206PB2 L XREF=GJ(7983) 206PB CL J From interpretation of (G,G) reaction data. 206PB G 6509 206PB3 G FLAG=* 206PB G 7972 4 206PB L 8000.210 1 206PB2 L XREF=GJ(*8017) 206PB CL J From interpretation of (G,G) reaction data. 206PB CL E Probably an unresolved multiplet in (G,G') (80CH22). 206PB G 7202 ? 206PB3 G FL=803.049 206PB G 8000 206PB L 8040.210 206PB2 L XREF=GJ(*8017) 206PB CL E Probably an unresolved multiplet in (G,G') (80CH22). 206PB G 8040 100 206PB L 8080 206PB2 L XREF=L 206PB L 8081.5+X 24 (20+) Y 206PB2 L XREF=Z 206PB CL J 323G TO (19+). 206PB G 322.6 100 206PB CG FROM 204HG(9BE,A3NG) 206PB L 819915 206PB2 L XREF=J 206PB L 822615 206PB2 L XREF=J 206PB L 8300 206PB2 L XREF=L 206PB L 8705+X 3 (21+) Y 206PB2 L XREF=Z 206PB CL J 624G TO (20+). 206PB G 623.8 100 206PB CG FROM 204HG(9BE,A3NG) 206PB L 8800 206PB2 L XREF=L 206PB L 9150 206PB2 L XREF=L REM The following set demonstrates the result of the automatic mode SCALE 9300. 7.58 0. DRAW /X:0.00/W:6.57/R:0.46/F:228/G:329/P:X:0.01 DRAW /X:0.00/W:6.57/R:0.46/F:117/G:227/P:X:0.01 DRAW /X:0.00/W:6.57/R:0.46/F: 47/G:116/P:X:0.01 DRAW /X:0.00/W:6.57/R:0.46/F: 23/G: 46/P:X:0.01 DRAW /X:0.00/W:6.57/R:0.46/F: 1/G: 22/P:X:0.01 REM The following show the effect of using various scales SCALE 1800. 0.50 0. SCALE 5200. 0.70 1800. SCALE 6600. 2.70 5200. SCALE 8100. 3.00 6600. SCALE 9300. 0.20 8100. DRAW /X:0.00/W:6.57/R:0.46/F:228/G:329/P:X:0.01 SCALE 2700. 1.00 0. SCALE 4550. 0.70 2700. SCALE 5800. 5.15 4550. SCALE 9300. 0.40 5800. DRAW /X:0.00/W:6.57/R:0.46/F:117/G:227/P:X:0.01 SCALE 3300. 2.00 0. SCALE 3600. 0.25 3300. SCALE 4550. 4.50 3600. SCALE 9300. 0.50 4550. DRAW /X:0.00/W:6.57/R:0.46/F: 47/G:116/P:X:0.01 SCALE 2600. 1.40 0. SCALE 3700. 5.00 2600. SCALE 9300. 1.00 3700. DRAW /X:0.00/W:6.57/R:0.46/F: 23/G: 46/P:X:0.01 SCALE 2900. 5.50 0. SCALE 9300. 2.00 2900. DRAW /X:0.00/W:6.57/R:0.46/F: 1/G: 22/P:X:0.01 REM Example of the MAXLEV command (There is also a MINLEV but I don't like it.) SCALE 2900. 7.50 0. MAXLEV 22 DRAW /X:0.00/W:6.57/R:0.46/F: 1/G: 22/P:X:0.01