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204Hg *ADOPTED LEVELS, GAMMAS 94NDS 199411
204 80 I 64 43 0 0 0 0
H TYP=FUL$AUT=M. R. SCHMORAK$CIT=NDS 72,409 (1994)$CUT=1-Sep-1994$
XA204AU B- DECAY
XB204TL EC DECAY
XC204HG(E,E')
XD205TL(E,E'P)
XE204HG(N,N'G)
XF204HG(D,PNG)
XG204HG(P,P')
XH204HG(D,D')
XI204HG(A,A')
XJCOULOMB EXCITATION
XK205TL(MU-,NG)
XL205TL(D,3HE)
XM208PB(D,6LI)
204Hg Q -347.3 15 7495.0 19 8852 15 1993AU05
CL T From BE2 in COUL. EX., except as noted. BEL values for
2CL L GE 3 multipolarities are from (E,E'), they are given here in
3CL single particle units.
CG E$From 204AU B-, (N,N'G), (D,PNG), (MU,NG)
CG M$From (D,PNG), except as noted
CL J(P)$Based on L transfer in (P,P'), and from (e.e')
CL J$JPI from (N,N'G) are based on G(THETA) and on excitation function.
2CL JPI from (E,E') are based on cross sections as function of
3CL momentum transfer. Natural parity states were excited preferentialy.
CL E$For E GE 4406 see levels observed in (E,E')
1 L 0 0+ STABLE
1X L XREF=ABCDEFGHIJKLM
1 CL Isotope shifts: 1977Du03, 1975Ro10, 1972Bo09, 1978Le09
1 CL Charge distribution studied (1979Ha08).
2 L 436.552 8 2+ 40.4 PS 4
2X L XREF=ACEFGHIJKLM
22 L MOME2=+0.40 20 $ MOMM1=+0.80 20 (1986KO02,1989RA17)
2 CL J from COUL. EX., (A,A')
1 G 436.551 8 100 E2 0.04
13 G BE2W=11.95 8
1 CG BE2 from COUL. EX. and from (E,E')
3 L 1128.35 8 4+ 2.9 PS 2
3X L XREF=ACEFGHIJKLM
32 L BE4W=5.5 7
3 CL J COUL. EX.
2 G 691.80 10 100 E2 0.013
23 G BE2W=17.0 12
4 L 1635.76 10 0+
4X L XREF=CDEGL
4 CL J$from (E,E'), L=0 in (D,3HE), G(THETA) in (N,N'G)
4 CL M(E0)=1.1 e(fm){+2} 7
2 G 1199.2 1 100
5 L 1716.76 10 (2)
5X L XREF=EG
5 CL J$from (N,N'G), G(THETA) excludes J=0
2 G 1280.2 1 100
6 L 1828.76 10 (2)
6X L XREF=AFKME
6 CL J$from (N,N'G)
2 G 1392.20 10 100
7 L 1841.42 7 1+,2+
7X L XREF=AEGKL
7 CL J$G's to 0+ and 2+, L=2 in (D,3HE). Probable excitation in
72CL (P,P') favors 2+
2 G 1404.90 10 100 5
1 G 1841.40 10 69 3
8 L 1851.35 9 (2+)
8X L XREF=AEHF
8 CL J G's to 2+ and 4+, LOGFT=5.3, (N,N'G)
3 G 723.00 10 100 3
2 G 1414.80 10 39.3 12
? 1 G 1851.7 4 1.1 LE
9 L 1947.68 9 1+,2+
9X L XREF=ACEFKL
9 CL J G's to 0+ and 2+, L=2 in (D,3HE)
2 G 1511.10 10 100 3
1 G 1947.76 20 5.3 4
10 L 1989.34 10 (2+,3-)
10X L XREF=ACEFGJK
10 CL J$LOGFT=5.8, GAMMA to 2+, probably excited in COUL. EX. and (E,E')
2 G 1552.78 10 100
? 11 L 2088.61 10(1,2+)
? 11X L XREF=ACE
? 11 CL J GAMMA to GS
1 G 2088.60 10 100
12 L 2094.46 20 3(-),4(+)
12X L XREF=EGC
12 CL J$G to 2+, J GE 3 from excit function in (N,N'G)
2 G 1657.9 2 100
13 L 2117.39 9 (2)+
13X L XREF=EAL
13 CL J$G(THETA) in (N,N'G), G to 0+, L=2 in (D,3HE)
2 G 1680.8 1 100 8
1 G 2117.5 2 41 8
14 L 2131.26 20
14X L XREF=CEG
2 G 1694.7 2 100
15 L 2140.84 10(1,2,3)
15X L XREF=EAK
15 CL J LOGFT=6.0, GAMMA to 2+
2 G 1704.28 10 100
16 L 2191.05 13 6+ 0.30 PS 4
16X L XREF=CEFGJK
16 CL J$E1 from 7-, COUL. EX. GAMMA to 4+,L=6 in (P,P')
3 G 1062.70 10 100 E2 0.005
3 CG M$from COUL. EX.
33 G BE2W=19 3
17 L 2236.05 22
17X L XREF=EFM(*)
3 G 1107.7 2 100
18 L 2263.00 13 5-
18X L XREF=CEFGKLM(*)
182 L BE5W=10.8 25
18 CL J$(E,E'), stretched E1 to 4+ in (D,PNG), J GE 3 in (D,6LI).
182CL Possibly CONF=((P,S1/2,-1)(P,H11/2,-1))
3 G 1134.65 10 100 E1
19 L 2264.06 20 1,2,3
19X L XREF=AEIKM(*)
19 CL J$LOGFT=6.2, (N,N'G)
2 G 1827.5 2 100
20 L 2295.66 10
20X L XREF=E
2 G 1859.1 1 100
21 L 2300.35 13 (2+)
21X L XREF=AEF
21 CL J$G's to 2+,4+, J LE 2 from excitation function in (N,N'G)
3 G 1172.00 10 100 11
? 2 G 1863.3 3 21 6
22 L 2300.70 17 7- 6.7 NS 5
22X L XREF=FKC
222 L BE7W=3.9 15
22 CL T$from (D,PNG)
22 CL J$(E,E')
16 G 109.65 11 100 E1 0.3
163 G BE1W=1.8E-5 2
23 L 2359 5
23X L XREF=CD
24 L 2385.9 4 1(+),2+
24X L XREF=AEL
24 CL J$G to 0+, L=0,2 in (D,3HE)
1 G 2385.9 4 100
? 25 L 2395.92 25 (2+,3-)
? 25X L XREF=ACG
? 25 CL J$possible G's to 2+,4+ in 204AU B-, probably excited in (P,P'),
? 252CL (E,E')
7 G 554.7 3 100 15
2 G 1959.0 4 10 LE
26 L 2465.46 20 (1,2,3)+
26X L XREF=ACEGL
26 CL J$L=2 in (D,3HE), possible observation in (E,E'), (P,P') favors 2+
2 G 2028.9 2 100
27 L 2514.55 22
27X L XREF=CEGJ
3 G 1386.2 2 100
28 L 2568.95 13
28X L XREF=CE
3 G 1440.6 1 100
29 L 2628.26 10
29X L XREF=CDE
2 G 2191.7 1 100
30 L 2675.33 18 3-
30X L XREF=CEGIJ
302 L BE3W=24 2
30 CL J$from (e.e'), (A,A') and (P,P'). Collective octupole vibration
3 G 1547.0 2 79 16
2 G 2238.7 3 100 20
31 L 2724.05 24 GE 5
31X L XREF=CF
31 CL J G deexcitation in (D,PNG)
21 G 423.7 2 100 20
? 19 G 460.5 10 25 AP
32 L 2726.7 3 (2+,3)
32X L XREF=AKC
32 CL J GAMMA to 4+, LOGFT=6.0
6 G 897.9 6 81 51
3 G 1598.3 3 100 19
33 L 2760.60 24 GE 3
33X L XREF=CFKLMG
33 CL J GAMMA to (5)- and possibly to 6+
18 G 497.6 2 100 20
? 16 G 569.5 10 30 AP
34 L 2812.83 24 3-
34X L XREF=ACG
342 L BE3W=8.0 8
34 CL J$L=3 in (P,P'), (E,E')
2 G 2376.26 24 100
35 L 2866 4
35X L XREF=CGL
36 L 2925 37
36X L XREF=C
37 L 3021 4 4+
37F L FLAG=P
37X L XREF=CG
372 L BE4W=4.95 18
38 L 3112 4 (4+)
38F L FLAG=P
38X L XREF=CGM
39 L 3190 15 2+,3+
39X L XREF=CL
39 CL J$from (D,3HE)
40 L 3227 4 (5-)
40F L FLAG=P
40X L XREF=CG
41 L 3315 4 3-
41F L FLAG=P
41X L XREF=CGL
412 L BE3W=6.3 7
42 L 3364 4 5-
42F L FLAG=P
42X L XREF=CG
422 L BE5W=9.5 13
43 L 3417 4
43X L XREF=CG
44 L 3439 4
44X L XREF=G
45 L 3496 5
45X L XREF=G
46 L 3528 6
46X L XREF=CGM
47 L 3585 4
47X L XREF=CG
48 L 3618 6
48X L XREF=G
49 L 3664 9
49X L XREF=CG
50 L 3697 5
50X L XREF=G
51 L 3712 7
51X L XREF=CG
52 L 3750 4
52X L XREF=CGL(*)
53 L 3779 4
53X L XREF=CGL(*)
54 L 3833 8
54X L XREF=CG
55 L 3869 7
55X L XREF=CGL
56 L 3923 9
56X L XREF=GC
57 L 3954 10
57X L XREF=CG
58 L 4113 5 4+
58F L FLAG=P
58X L XREF=CG
582 L BE4W=6.6 8
59 L 4164 5
59X L XREF=CG
60 L 4225 6
60X L XREF=G
61 L 4262 5
61X L XREF=G
62 L 4321 6
62X L XREF=G
63 L 4356 6
63X L XREF=CG
64 L 4406 6
64X L XREF=CG