ML20235H788
| ML20235H788 | |
| Person / Time | |
|---|---|
| Issue date: | 09/23/1987 |
| From: | Gibbons D, Wiedeman D NRC OFFICE OF INSPECTION & ENFORCEMENT (IE REGION III) |
| To: | |
| Shared Package | |
| ML20235H723 | List: |
| References | |
| 99990003-87-05, 99990003-87-5, NUDOCS 8710010175 | |
| Download: ML20235H788 (27) | |
Text
,
U.S NUCLEAR REGULATORY COMMISSIOM-
.; j.
REGION III~
ll Report No. 99990003/87005(DRSS)
Docket No.- 99990003-Facility Names:
(1)-Paul's Inc.
Highway 62 East P.O. Box 569 Sikeston, Missouri 63801 (2) Marnor Aluminum Processors Highway H and HH P.O. Box 368 Miner, Missouri 63801-(3) Metal Mark, Inc.
332 South Michigan Chicago, Illinois 60604 (4) United Technology P.O. Box 505 Boonville, Indiana 47601 (5) Tar Metal Products 301 Hill Street Fort Scott, Kansas Inspection At:
Paul's Inc.
Highway 62 East, Sikeston, Missouri and Marnor Aluminum' Processing, Inc.-
Highway H and HH Miner, Missouri 63801 Inspection Conducted:. September 10-14, 1987 e$ s A.
Inspector:
D. R. Gibbons M M.17///7
' ~
j Radiation S cial Date O
1 m
[6gMgN,h/M7 Approved By:
D. G. Wiedeman, Chief Nuclear Materials Safety Date Section 1 l
l.
20010175 B70924 GA999 EPfVe****
4 0003
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a Special Inspection Summary 1
l Inspection on September 10-14, 1987~(Report No. 99990003/87005(DRSS))
I Areas Inspected:
This was an announced special inspection initiated by a telephone call from the President of Paul's Inc. located in Sikeston, Missouri, regarding material shipped into the company's salvage yard.
The' material appeared to be radioactive contaminated aluminum oxide (dross).
The President of Paul's Inc. stated that a radiation monitor positioned to detect radiation from trucks that were being weighed, had alarmed, and he (the President) did not know what to do with the truck, or the material.
Paul's Inc. does not have a license to possess byproduct material, so he contacted the company that ordered the material, Marnor Aluminum Processors, Inc. located in Miner, Missouri and they in turn contacted the Missouri Department of Health which contacted the Region III office for assistance.
Results:
Paul's Inc. salvage yard received two railroad box cars loaded with 9
aluminum dross material (133,000 lbs. and 90,000 lbs., respectively) that appeared to be contaminated with radium-226.
There were no violations of NRC regulations identified.
1
)
1 1
l l
2
-_______-a
DETAILS 1.
Persons Contacted
- Randy A. Eakins, President of Paul's Inc.
- James C. Burress, Plant Manager of Marnor Aluminum Processors, Inc.
Ricky Vaughn, Machine Operator, Paul's Inc.
Kenneth V. Miller, Bureau Chief, Radiologic Health Section, State of Missouri Department of Health Reggie D. Cope, Department of Health Radiological Health Analyst III, State of Missouri
- Carl Nygren, President, Metal Mark, Inc.
- Eli A. Port, Consultant for Metal Mark, Inc., Radiation Safety Services, Inc.
- Denotes those present during the exit interview of September 11, 1987.
2.
Purpose of Special Inspection This was an announced, special inspection initiated by a telephone call to Region III from the Missouri Department of Health on September 9, 1987.
One of the trucks located at Paul's Inc. loaded with aluminum dross had caused a radiation detector (a Ludlum Model 300) to read 6,000-7,000 counts per minute (cpm) above normal background (1,000 cpm).
The radiation detector reading alarmed personnel at Paul's Inc. so they moved the truck off from the weight scales and disconnected the trailer from i
the tractor.
The President of Paul's Inc. then called Marnor Aluminum Processors, which in turn contacted their parent company, Metal Mark, Inc.
l in Chicago, Illinois who in turn notified the Missouri-Department of-Health.
]
i I
3.
Program - Paul's Inc.
1 The company recycles various type of scrap metals, and most metals are 1
received by box car by way of a small railroad spur that enters the salvage yard.
The railroad spur is also used for the delivery of aluminum dross 1
material that is transferred to Marnor Aluminum Processors, Inc.
Marnor Aluminum is located approximately five miles from Paul's Inc.
The l
aluminum dross is the mixture of impurities skimmed from vats containing molten aluminum, and after the skimmed material has cooled, it is shipped to various reprocessing plants for further smelting and processing, Marnor Aluminum is one of those plants.
Paul's Inc. received two box cars of aluminum dross on September 8, 1987 from United Technology, a firm located i
in Boonville, Indiana.
4.
Specific NRC Findings An inspector from Region III was dispatched on September 10, 1987 to Sikeston, Missouri and met with Paul's Inc. personnel and State of Missouri Department of Health personnel.
Missouri State Health's personnel had received initial notification of the incident, and had arrived early in the afternoon of September 10, 1987.
The Region III inspector confirmed the radiation levels that the State personnel had reported.
3
The truck containing the contaminated aluminum dross showed' radiation
~
readings of 0.2 millirem per hour at the surface of the truck bed (background is'approximately 0.03 to 0.05 millirem per hour), and-up to a maximum of 3.0 millirem per hour inside the~ rail car that had
-been partially unloaded.
The Region III inspector requested that personnel from Paul's Inc. transfer i
the aluminum dross from the loaded trailer, back to the original box car.
l That was accomplished on September 11, 1987.
The box car (No.~52155) was J
l then sealed and both box cars were pushed back into the loading. dock of l
Paul's Inc.
Radiation levels on the outside of box car No. 52155 was 0.5 millirems
-i per. hour and on box car No. 52163, the maximum reading was 0.4 millirem per hour.
Both box cars were labeled with " Caution Radioactive Material" signs and the doors to both box cars were wire sealed.
5.
Sample Collections and Findings The Region III inspector surveyed personnel involved and found no radiation contamination; a lapel sampler was positioned on one employee working inside one.of the rail cars.
This air sample indicated airborne activity of 5 X 10 21 microcuries/ml gross alpha (see Attachment A).
The lapel sampler was positioned, collected, and analyzed by Metal Mark's.
cons ul tant.
Pieces of dross samples were collected at the site and counted in the Region III counting laboratory on September 14, 1987 (see Attachment B).
Smear samples were taken at various locations at Pauli s Inc. to determine if radioactive contamination had spread to other areas (see Attachment C).
The smears indicated no significant radioactive contamination.
Soil samples were collected from around the salvage yard after the truck was unloaded and the material put back in the box car.
The soil samples were counted in the Region III counting lab as one sample, and indicated 1.0 to 2.0 picocuries/ gram (see Attachment D).
The soil sample results indicated no radioactive contamination of regulatory l
significance.
The aluminum dross was counted in the Region III laboratory and indicated that the radioactive contamination was due to the presence of radium-226 l
in the dross material (2.0-2.75 nanocuries/ gram).
Radium-226 is not a byproduct material and is not controlled by the Commission.
The States of Missouri and Indiana personnel were notified on September 14, 1987 of the above results, and will be coordinating their efforts for the disposal of the material.
The above results were conveyed to the consultant working for Metal Mark, Paul's Inc. and Marnor Aluminum, Inc.
The NRC laboratory results were comparable to the results obtained from samples collected and analyzed by the consultant.
4
6.
Subsequent Follow-up Actions 1
When Region III determined where the contaminated dross originated from
.j (United Technology, Boonville, Indiana); Region III contacted the Indiana Department of Health, Radiologic Health Section, and requested that a
]
representative of'that agency check the facility.in Boonville, Indiana, 1
for contamination of the facility.and/or finished aluminum' products.
This 1
survey was completed on September 11, 1987 and was reported as negative j
for any radiation levels above background other then refactory brick i
which contained natural source material.
Further follow-up determined i
that the previous shipments of aluminum dross from United Technology was l
on July 22, 1987 and these shipments were made to Tar Metal. Products, 301 Hill Street, Fort Scott, Kansas.
Region.III contacted the Kansas Department of Health and Environment and requested that the Tar Metal Products facility be checked for contamination of their facility and/or 3
finished aluminum products.
On September 11, 1987, Region III was informed-I that the Kansas Department of Health did not find any radiation levels above background at Tar Metal Products, other then natural K-40 near a potash pile.
7.
Conclusion It appears that a radium-226 gauge or device was illegally disposed of l
and subsequently received at United Technology in Boonville, Indiana between July 22, 1987 to September 1, 1987.
This device was melted down with other aluminum scrap and the dross which contained the radium-226 was shipped to Marnor Aluminum Products in Miner, Missouri on September 1, 1987.
The dross was shipped by rail (2 box cars) and
]
l received at Paul's Inc. in Sikeston, Missouri on September 8, 1987.
On 1
l September 9, 1987, the dross was partially removed from one of the box cars and while in the process of weighing the truck load of dross, a radiation alarm went off, indicating the presence of radioactive contaminants.
The previous shipments of dross (prior to September 1, 1987) did not show any indication of radioactive contaminates at the facility that received the shipments on July 22, 1987 in Fort Scott, Kansas.
8.
Exit Interview
)
t Personnel denoted in Item 1 of this report were informed of the inspectors j
findings during an exit interview on September 11, 1987.
They were i
informed that preliminary results indicated that there was radioactive l
contamination in the dross located in the sealed box cars and that I
laboratory analysis would have to be performed to determine the isotope ahd'the amount of contamination.
The results of the analysis would then determine NRCs future actions.
3 5
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. SAMPLE DATE:
14-SEP-87 09:00:00 SAMPLE' IDENTIFICATION:
87-372 TYPE OF SAMPLE:. CHUf1KS/DROS,$
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' ACQUIRE DATE: 14-SEP-87 08:48:27
- FWHM(1332) 2.000' SENSITIVITY:
5.000 PRESET TIME (LIVE):
1800.'SEC ELAPSED REAL TIME:
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- SHAPE PARAMETEP : 10.0 %
ELAPSED LIVE TIME:
1800. SEC
- NBR ITERATIONS:
10.
- 4*******4***********t******4*********4***********4****
tJATLU l-DETECTOR: ADC DETECTOR
- L I BRAPY: NUCL. !@ :.
l CALIB DATE:
11-SEP-87 15:52:40
- ENERGY TOLERANCE:
0.900KV KEV /CHNL:
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- HALF LIFE RATIO:
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- ABUNDANCE LIMIT:. 80.00%
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ENERGY WINDOW 4.31 TO 2811.84 1
PK IT EjNERGY AREA BKGND FWHM CHANNEL LEFT PW CTS /SEC % ERR FIT 1
0 52.76 3035.
- 32682, 1.07 113,28 115.
8 1.69E 00 10.5 l
2 5
74.36 49955.
30788.
0.89 164.33 154 28 2.78E 01 0.7 1.89E 03 3
5 76.75
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1.74 169,43 154 28 7.31E 01 0.4 j
4 5
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- 5717, 21933.
1.91 184.50 181 21 3.18E 00 4.3 1.60E 02 5
5 86.98 32341.
24651.
1.07 191.22 181 21 1.80E 01 1,0 6
5 89.46 18070.
41152.
1.91 196.51 181 21 1.00E 01
- 2. 6 7
0 149.57
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0 186.24 41480.
34491.
1.07 402.81 398 11 2.30E 01
- 1. 0 9
0 242.07 55e77.
23228.
1.15 521.83 516 12 3.0CE 01
- 0. 7 10 0
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- 17865, 1.24 557.92 553 11 2.27E 00
- e. 5 11 0
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15466.
1.33 591,0o 586 10 1.77E 00
- 7. 6 12 0
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- 21039, 1.19 635.29 628 14 6.54E 01
- 0. 4 13 0
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1.26 756.19 748 16 1.06E 02' O. 3 15 2
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8945.
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8308.
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1.57 990.80 986
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2.14 20el.16 2055 14 3.97E-01 17.7 41 0 1052.04 738.
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1.66 2240,46 2243 12 4.10E-01 13,5 42 0 1060,95 486.
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1.68 228e.e4 2283 10 2.70E-01 18.0 43 0 1120.27 25372.
3826.
1.94 23o3,40 2393 20 1.41F 01 0, 0 44 0 1133.87
- 533, 1757.
1.89 2422.90 2418 10 2.96E-01 15.6
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- 2040, 2.05 2580.35 2574 13 3,4RE-01 15.3 48 0 1238.11 9270.
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2.02 2645.12 2e34 23 5.15E 00
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- 2442, 2.59 2677,21 2669 10 3.o2E-01 16. '2' 50 0 1280.98 2220.
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2.23 2042.68 2934 16 3.4BE 00 2.1 53 0 1385.35 1312.
1730.
2.30 2o58,9o 2053 14 7.29E-01
'.5 54 2 1401.64 1827.
2038.
2.27 2993.73 2983 32 1.02E 00
- 5. 9 1.00E 00
1 ENERGY WINDOW 4.31'TO 2811.84 A
PK,IT E;NERGY AREA BKGND FWHM CHANNEL LEFT PW CTS /SEC % ERR FIT 55 2 1408.08 3166.
- 1912, 2.23 3007,46 2983 32 1.76E 00 3, 4 i
15 6 ' 0'1509.33 2881.
2524.
2.36 3223.29 3215 18 1.60E 00
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- 57. 0 1530.40 514.
- 2012, 2,00 3285,26 3278 14 2,86E-01 l o. 3 l
58 0 1543.70 483.
1376.
1.94 3296.57 3292 11 2.68E-01 16.0 j
59 0 1583.42.
- 992, 1450, 2.22 3391.25'3373 16 5,51E-01
- 9. 3 l
60 0 1594.50 400.
1149.
2.54 3404.86 3398 13 2.22E-01 18.7 q
61 0 1504.85 452.
- 863, 2.38 3416.27 3411 11 2.51E-01 13,9
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62 0 1661.49 1527.
1269.
2.43 3547.67 3536 26 8.48E-01 7.1 4
63 0 1683.90 268.
681.
1.59 35o5,44 3580 15 1,49E-01 22.6 j
lo 2. 68 341.
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'1 96 3e14.lo 3606 17 1.90E-01 20.4-1 o
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65 0 1729.70 4022.
- 009, 2.59 36o3.07 3682 22 2.23E 00 2, 4 66
'O 1764.64 18561.
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2.46 3767.56 3757 22 1.03E 01
- 0. 8 67 0 1838.48
- 457, 552, 3.06 3924,97 3918 16 2,54E-01 12.7 68 0 1847.6e 2504.
682.
2.38 3944.53 3934 20 1.39E 00
- 3. 2 l
69 0 1873.61
- 229, 379, 2.70 3990,85 3995 11 1,27E-01 18,3 j
70 0 2118.89 1239.
236.
2.63 4522.75 4512 22 6.88E-01 4.4 j
71 0 2204.46
- 4818, 290.
2.76 4705.17 4694 23 2,68E 00
- 1. 7 1
72 0 2293.70 295.
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2.89 4895.42 4885 22 1.64E-01
- 9. 3
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73 0 2448.11 1342.
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2.77 5224.59 5214 23 7.46E-01
- 3. 3 1
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9.
1.29 5749.44 5746 7 5.80E-03 e0.9 l
l PEAK SEARCH COMPLETED (REV 15,1)
]
PULSE-PILE-UP CORRECTED DATA. COPRECTION =
1.030 UNCORR. L1VE TIME:
1800.CORPECTED LIUE TIME:
0 52.76 3035.
- 32682, 1.07 118.29 115 0 1,74 E 00 10.5
)
2 5
74.36 49955.
30788.
- 0. 8G 164.33 154 28 2.86E 01
- 0. 7 l
3 5
7e.75 131614.
49167.
1, 74 16o.43 154 23 7,53E 01
- 0. 4 4
5 83.83
- 5717, 21933.
1.91 184.50 181 21 3.27E 00
- 4. 3 5
5 Be. 98
- 32341, 24651.
1.07 1o1.22 101 21 1,05E 01
- 1. 0 6
5 89.46 18070.
41152.
1.91 196.51 181 21 1.03E 01
- 2. 6 7
0 149.57 472.
- 18960, 1.29 324.65 323 5 2.70E-01 44.0 8
0 186.24 41480.
34491.
1.07 402.81 398 11 2.37E 01
- 1. 0 9
0 242.07
- 55677, 23228, 1.15 521,83 516 12 3.18E 01
- 0. 7 i
l 10 0
259 00 4078.
17865.
1.24 557.92 553 11 2.33E 00
- 6. 5 11 0
274.56 3179 15466.
1.33 591.09 586 10 1.82E 00 7.6 12 0
295.30 117711.
21039.
1.19 635.29 628 14 6.73E 01
- 0. 4 13 0
314.50 390.
- 8474, 0.95 676.22 673 7 2.17E-01 41.6 14 0
352.01 191661.
18991.
1.26 756.19 748 16 1.10E O2
- 0. 3 15 2
386.96 1818.
Bo45.
1.77 830.69 826 14 1,04E 00 9.7 16 2
389.14 1567.
7987.
1.29 835.34 82e 14 8.96E-01 10.4 17 0
406.03 487.
- 7297, 1.22 071.34 86o 7 2.7CE-01 2o. 7 18 0
454.81 1077.
8308.
1.14 975.33 970 12 6.16E-01 17.1 19 0
462.07 823.
776c.
1.57 490.80 986 12.4.71E-03 21. 8 20 0
469.92
- 534, 4349.
1.20 1007.54 1005 7 3.05E-01 21.1 21 0
480.60
- 1548, 5674.
- 1. 54 1030.30 1026 10 8.85E-01
- c. 6 22 0
487.08
- le42, 6120.
1.69 1044.12 1039 11 9.39E-01
- 9. 6 l
23 0
510.79
'010.
8210.
3.67 10o4.52 1006 17 1,15E 00 10.6 24 0
533.75 436.
3543.
1.25 1143.e0 1141 7 2.49E-01 23.2 25 0
543.87 282.
3848.
1.07 1165.10 1162 3 1.61E-01 3G. 5 26 0
580.24.
1354.
5003.
1.64 1242.70 1237 12 7.75E-01 10.8 27 0
e0o. 38 132828.
8134.
1.40 1304.83 1296 18 7.60E 01
- 0. 3 28 0
e65.40 3780.
- 3877, 1.54 1424.43 1419 12 2.16E 00
- 3. 7 20 0
703.22 1351.
4293.
1,71 1504.37 1400 14 7.73E-01 10.6 30 0
719.70 788.
3470.
1.46 1540.01 1535 11 4.51E-01 15.0 31 0
741.85
- 846, 4049.
1.92 1507.21 1580 14 4. 84 E-01 16.3 3
262.
- 2613, 1.13.lelo.76 1607 9 1.50E-01 35.8 2 1
? 5 2. 8 9 n
35I O 806.01 2933.
- 4098, 1.80 1724,~00 1716 15 1.68E'00
- 5. 2
{
36 0 '821.46
- 411, 3132.
2.12 1756.93 1752 11 2.35E-01 27.1
]
37 0
826.13
- 350, 2525, 1,73 1766.89 1763 9 2.00E-01'26.5 j
38 ' O 639.10
- 1509, 3768.
1,77 1794.54 1788 13 8.63E-01
- 8. 8 l
39 0 '934.07 6058.
3605.
1,74 1996.90 1989 14 3,47E 00
- 2. 5 40 0
964.18
- 715, 3388.
2.14 2061.16 2055 14 4.09E-01 17.7 41 0 1052.04'
- 738, 2186, 1.66 2248.46 2243 12-4.22E-01 13.5 42 0 1069.95
'486.
- 1953, 1.68 2286.64 2283 10 2.78E-01 18.0 43 0 1120.27 25372.
3026.
1.94 2393.90 2303 20 1,45E 01
- 0. 9 l
44 0 1133.87 533.
1757.
1.89 2422.90 2418 10 3.05E-01 15.6 45 0 1155.26 2o46.
2837.
1.99 2469.49 2461 17 1.6cE 00
- 4. 7 46 0 1181.81
-533.
1941.
2.06 2525.10 2520 12 3.05E-01 17.2 47 0 1207.73 626.
- 2040, 2.05 2580.35 2574 13 3.58E-01 15.3 48 0 1238.11
- 9270, 3209.
2.02 2645.12 2634 23 5.30E 00
- 1. 9 49 0 1253.16 706.
2442.
2.59 2677.21 2668 18 4.04E-01 16.9 50 0'1280.98 2220.
2125.
2.04 2736.51 2729 16 1.27E 00 5.2 i
51 0 1304.05 118.
1236.
1.33 2785.60 2781 9 6,73E-02 54.4 52- 0 1377.70
- 6270, 2028, 2.23 2942.68 2934 16 3.59E 00 2.1 53 0 1385.35
- 1312, 1730.
2.33 2050.99 2953 14 7.5]E-01
- 7. 5 54' 2 1401.64 1827.
2038.
2.27 2993.73 2983 32 1.05E 00
- 5. 9 l
55 2 1408.08 3166.
Jo12.
2.23 3007,46 2983 32 1.31E 00
- 3. 4 56 0 1509.33 2881.
2524.
2.36 3223.29 3215 18 1.65E 00
- 4. 6 l
57 0 1538.40 514.
2012.
2.00 3285.26 3270 14 2.c4E-01 19.3 58 0 1543.70 483.
1376.
1.94 3296.57 3292 11 2.76E-01 16.0 59 0 1583.42 992.
- 1450, 2.22 3381.25 3373 16 5.67E-01
- 9. 3 60 0 1594.50 400.
1149.
2.54 3404.86 3398 13 2.29E-01 18.7 el 0 1599.85 452.
863.
2.38 3416,27 3411 11 2.58E-01 13.9 62 0 1661.49 1527.
1269.
2.43 3547.67 3536 26 8.74E-01 7.1 s
e3 0 1683.90 268.
681.
1.59 3505,44 3580 15 1.53E-01 22.6 64 0 1692.68 341.
827.
1.96 3614.16 3606 17 1.05E-01 20.4 65 0 1729.70 4022.
- 809, 2.59 3693,07 3682 22 2.30E 00
- 2. 4 I
66 0 1764.64 18561.
907.
2.46 3767.56 3757 22 1.06E 01
- 0. 8 67 0 1838.48 457.
552.
3.06 3o24,97 3018 16 2.62E-01 12.7 68 0 1847.66 2504 682.
2.38 3944.53 3934 20 1.43E-00
- 3. 2 69 0 1873.61 229.
379.
2.70 3999.R5 3995 11 1,31E-01 10.3 l
70 0 2118.89 1239.
236.
2.63 4522.75 4512 22 7.09E-01 4.4 71 0 2204.46 4818.
- 290, 2.76 4705.17 4004 23 2,76E 00
- 1. 7 i
72 0 2293.70 295.
55, 2.80 4895.42 4885 22 1.69E-01 9, 3 q
73 0 2448,11 1342.
62.
2.77 5224.59 5214 23 7.68E-01
- 3. 3 74 0 2694.31 10.
9.
1.29 5749. 44 574e 7 5.98E-03 60.9 j
l l
PILE-LIP CORPECTION COMPLETED (PEU 2) l l
l l
l l
l l
l
__ ]
- UCU bE U UE ACTIVIkE REPORI-PAGE 1
ELAPSED LIVE TIMES 1748. (PILE-UP CORRECTED) l FISSION GAS 1 SIGMA NUCLIDE SDHR ENEPGY AREA BKGND XABN
%EFF llCI / UNIT-FRPOR XE-138 FG 258.31 4078.
17865.
31.504 9.762E-01 4.594E -5 3.006E -6 434,49 0.
O, 20.30 0,000E-01 0,000E O
0,000E O
1768.26 0.
O.
16,70 0.000E-01 0.000E O
0,000E O
I 2015.E2 0,
O.
12.30 0,000E-01 0.000E O
0,000E O
ACTIVATION PRODUCT 1 SIGMA NUCLIDE SDHR ENERGY AREA BKGND
%ABN XEFF UCI / UNIT ERROR F-18 AP 511.00 2010.
8218.
96.73*
5.906E-01 1.I17E -5 1.188E -6 SC-46 AP 889.25 O.
O.
99.98 0.000E-01 0.000E O
0.000E O
1120.51 25372.
3826.
99.99*
2.998E-01 2.617E -4 2.276E -6
' 0.40 0,000E-01 0.000E O
0,000E r-EU-152 AP 121. 8 0,
0, 2
344,27 0.
O.
26.50*
0.000E-01 0.000E O
0.000E O
778.E9 0,
0, 12.74 0,000E-01 0,000E o
0.000E O
964.01
- 715, 3388.
14.40 3.421E-01 4.489E -5 7.965E_-6 1085.78 0,
0, 10.00 0.000E-01 0,000E O
0.000E O
1112.02 0.
O.
13.30 0.000E-01 0.000E O
0.000E O
1407.95
- 3166, 1912.
20,70 2.447E-01 1.C37E
-4 6.600E -6 FISSION PPODUCT
- 1. SIGMA NUCLIDE SBHR ENER3Y AREA DKGND
%ABN
%EFF UCI / UNIT EPROR
)
SR-92 FP 241.52 55677.
23228.
3.00 1.016E 00 5.746E -3 3.986E -5 1
430.56 0.
O, 3.30 0,000E-01 0,000E O
0,000E O
953.32 0.
O.
3.60 0.000E-01 0.000E O
0.000E O
1142.30 0,
0, 2.90 0.000E-01 0,000E O
0,000E O
1383.c4 0.
O.
90.00*
0,000E-01 0.000E O
0.000E O
Y-92 FF 934.46
- 6053, 3605, 13.90*
3,51BE-01 3.984E
-4 9.67BE z.
i 1405.40 0.
O.
4.80 0.000E-01 0.000E O
0.000E O
NB-94 FP 702.63
- 1351, 4203. 100.00*
4.505E-01 4.271E -6 9,33cE
)
871.10 0.
O.
100.00 0.000E-01 0.000E O
O.000E O
l RU-105 FP 316.50 0.
O, 11.70 0,000E-01 0,000E O
0.000E l
469.40 534.
4349.
17.50 6.322E-01 1.509E -5 3.186E -6 676.40 0,
0, 16.70 0,000E-01 0,000E O
0,000E O
724.50 C.
O.
49.00*
0.000E-01 0.000E O
0.000E 0
1 CS-138 FP 462. ~'S D23.
7769.
30.70 6,40FE-01 1.,3c?E -5 3,036E -G 546.94 0.
O.
10.80 0.000E-01 0.000E O
0.000E 0
1009,70 0,
0, 24,80 0,000E-01 0.000E o
0.000E
^
1435.86 0.
O.
76.30*
0.000E-01 0.000E O
O.000E O
2218.60 0,
O.
15,20 0,000E-01 0.000E O
0,000E 0
LA-140 FP 328.77 0.
O.
20.50 0.000E-01 0,000E O
0.000E O
i 487.03 1642.
6120.
45,50 6.140E-01 1,020E -5 1,746E -G 815.35 O.
O.
23.50 0.000E-01 0.000E O
0.000E O
1596.49 0,
0, c5,493 0.000E-01 0,000E O
0.000E F
l l
l l
l l
4
_j
i NUOLIDE L.INE; ACTIVITY REPORT PAGE 2-
.)
. PILE-UP CORRECTEDF
)
. ELAPSED,L1VE TIME:
1748o
(
a NATURAL PRODUCT
. SIGMA
]
]
1 NUCLIDE'SBHR ENEPGY AREA BKGND XADM
%EFF OCI / UNIT
. ERROR l
3.379E -5
.d 1.016E 00f,3.376E -3
'PA-226 NP 186.21 41480.
34491.
3.28 1.158E 00 7~761E -3 1,56BE -5:
241.98 55677.
- 23220, 74 49 8.967E-01 (2.114E -3
~
8.261E -6 295.21 117711.
21039.-
19.20 351.92 191661.
18991.
37.20 7.915E-01 l 2,013E -3 5.~ 613E --6
- 5. 094E-01 )' L 241E. -3 5; 526E + p09. '31 132828.
8134.
-46.70s 2.C98E-01 1.73?E -3 1.507E.-5 1120.29
- 25372, 3826, 1S.10 1238.I1 9270.
3209.'
5.94 2.744E-01I 1.75cE -3 3.396E -5 1764.49 18561.
907.
15.80 2.002E-01 1.814E -3 1.53BE -5 2204.22 4818.
290.
4.98 1._000E_02 2.991E
-6.
5.192E'-8.
PB-214 NP 52.14
- 3035, 32682, 1.06 1.000E 02 9.630E -6 1 011E -6 j
241.92 55677.
23228.
8.76 1.016E 00 2.103E --3 1.459E -5 s
259.00 4078.
17865.
O.50 9.762E-01 2.811E -3 1.33cE.-4 274.75 3179.
15466.
O.39 9.409E-01 2.914E 2.212E'-4 l
295.22 117711.
- 2103o, 19.94 8,967E-01. 2.226E E3 G.697E -6.
1 351.89 191661.
18991.
43.45+
7.915E-01 1.875E -3 5.228E -6 785.97
- 2711, 3639.
O 90 4.091E-01 2,477E -3 1.254E -4 RA-226A NP 186.10 41480.
34491.
(4. 5 0 + - 1.158E 00 2.461E -3 2.463E
-5' RA6U235-NP 186.10
- 41480, 34491,
~7~U~M 1.1'5CE 00-
- 1. 575E - 3 1.577E -5
.[
U-235 NP 109.15 0.
O.
1.55 O.000E-01 0.000E O
0.000E- 0 j
r143.76 0,
O.
10.50*
0.000E-01 0.000E O
0.000E O
163.35.-
O.
O.
4.77 0.000E-01 0.000E O
0.000E O-185.72 41480.
34401.
56.10
.1.15PE 00
- 1. o74 E -4 1,976E -s 202.14 0.
O.
O.86 0.000E-01 0.00.0E O
0.000E-0
~j l
205.31 0.
O.
4.87 0,000E-01 0,000E 0
0.000E O
B1-214A NP p 609.00 132828.
- 8134, 45,62*
5.094E-01 1.767E 5.609E -6 665.42
- 3780, 3077, 1.25-
- 4. 725E- 01 1.C79E -3
- 7. 278E - 5 l
-# 768.37 11693.
5228.-
4.97 4.172E-01 1.744E -3 2.965E -5 787.00 0.
O.
1.30
- 0. 000E- 01 0,000E O
0,000E O
i 839.20 1509.
3768.
O.68 3.866E-61 1.775E -3 1.569E -4 934.00
- 6053, 3605.
2.64 3,518E-01 2.017E -3 5,026E -5 1120.00 25372.
3826.
12.34
'2.99EE 2.121E -3 1.844E -5 j
.-1238.10 9270.
3200 3.41 2.744E-01 3.063E -3 5.916E -5 1377.82 6270.
- 2028, 4.84 2.495E-01 1.605E -3 3.321E -5 1764.50 18561.
507.
15.42 2.002E-01 1.959E -3 1.576E -5 l
2204.10 4818.
290.
5.32 1.000E 02 '2.800E -6 4.860E -8 i
f Noto M M 46 M g,
dM zgg 737 g,,,y, g
]
a sp0
/ i A.
2 f9 Q
/& )< I' G)0 to Wh(
2Vgg 3.rf GT I
&7%[2l(&a.)
as24 m
asz x
t.o5
%T'7. pc
'2 % Pe 03 A 7 o 07 ta%
(34 1.0 % X o
__O
- NbbEIDE!U NE iCTIV!iE RUPbRT PAGE~ 3 i
ELAPSED LIVE' TIME 8' 1748.;(PILE-UP:CORRECTEDP j
NATORAL PRODUCT-
'1 SIGMA q
.-,NUCLIDE SBHR'. ENERGY AREA DKGND XABN
.%EFF:
UCI / UNIT
=EPROR j
AC228A NP.
129.07 0.
O.
2.72 0.000E-01 0.000E
.0 0.000E O
-209,24-0, 0,
4.07-
.O.0005 O,000E' 0 0.000EL 'O 270.22 0.
O.
3i.44
.O.000E-01 0.'000E. O'LO.000E. O l
327,97-0, O.-
3.04.
O.000E-01 0.000E 0 ' 0'. 0 0 0 E L 0'
l 409.45 O.
O.
1.92 0.000E-01 0.'000E O
0.000E 0'
-562.62 0,
0, 1.08 0,000E-01 0.000E o :0,000E. 0 727.00 0.-
~0.-
8.51 O.000E-01 0.000E' 0-O.000E-0-
755.37 0,
-O.
1.07 0.000E-01 0,000E. 0.0,000E 0.
772.15 0.
O.
1.50 0.000E-01 0.000E
~0 0.000E O
L) 782.20 0,
0, O.52 0.000E-01 0.000E O
0.000E O
795.02 0.
0.-
4'.19 0.000E-01' O.000E 0.O.000E-O 835.80 0.
0; 1.66-0.000E-01 0.000E-O' O.000E
.-0 1
840.41 O.
O.
-0.83 0,000E-01 O. 000E O
0.000E- 0 911.30 0,
-0, 2'-?. 69
- 0,000E 01 0,000E
'0
'O'000E O
958.70 0.
O.
0.34 0.000E-01 0.000E O
0.000E- 0 J
964.87 715.
3350.
5.30 3.421E-01 1,220E -4 2.'164E -5 969.08 0.
O.
18.28 0.000E-01 0.000E O
0,000E O
1033.39 0,
O.
2,00 0.000E-01 '0,000E O..O.000E- 0 l
1588.20-O.
O.
3.77 0.000E-01 0,000E 0-O.000E O
)
1630.00 0,
O.
.1,76 0,000E-01 0.000E 0'.
O.000E 0
'l 1638.29 0.
O.
O.49-O.000E-01 'O.000E 0'
O.000E O
'l TL-208A NP 277.09 0,
O.
2,03
~0.000E-01 0,000E- 0 'O.000E O'
'l 510.70 2010.
8218.
.8.68 5.906E-01
'l~.213E -4 1.290E'-5
'583.20 0,
0, 32i15*
0.000E O.000E 0-
'O.000E 0-860.65 O.
O.
4.99 0,000E-01 0.000E-O.
O.000E O
l 1094.30 0,
0.,
1,01 0,000E-01 0.000E O-0; 000E 0-
- I' 2614.50 0.
O.
'34.89 0.000E-01 0,000E O
0.000E O
'7 oy)cf0 hY'% b a)
Yh' 2ny n
vnMotf 1
.i
<f d
l 1
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1
UUkbOUU LIUE REPORT PAGE 4
)
ELAPSED LIVE TIME 1740, (PIL E-UP CORRECTED)
LINES NOT LISTED IN LfBRARY PK IT ENERGY AREA BKGND FWHM CHANNEL LEFT PW CTS /SEC % ERR
%EFF 2
5 74.36 49555.
- 30783, O.89 164.33 154 20 2.86E 01 0.7 o,94E-01 3
5 76.75 131614.
49167.
1.74 169.43 154 28 7.53E 01
- 0. 4 1.02E 00 4
5 83.83 5717.
21933.
1.91 184.50 101 21 3.27E 00
- 4. 3 1.OoE 00 5
5 86.98 32341.
24651.
1.07 191.22 181 21 1.85E 01
- 1. 0 1.12E 00 6
5 89.46 18070.
- 41152, 1.91 196.51 181 21 1.03E 01
- 2. 6 1.14E 00 7
0 149.57 472.
I8968.
1.29 324.65 323 5 2.70E-01 44.0 1.24E 00 13 0
314.50 380.
0374 O.95 676.22 67%
7 2,17E-01 41.6 0.SoE-01 15 2
386.96 1818.
8945.
1.77 830.69 826 14 1.04E 00 9.7 7.37E-01 16 2
389.14 1567.
7987.
1.29 R35,34 826 14 8.96E-01 10,4 ' 34E-01 17 0
406.03 487.
7297.
1.22 871.34 869 7 2.79E-01 29.7 7.10E-01 18 0
454,81 1077.
8300.
1.14 475,33 470 12 6.16E-01 17,1 6,49E-0t i
21 0
480.60
- 1548, 5674.
1.54 1030.30 1026 10 8.85E-01 9.6 6.21E-01 24 0
533.75 436.
- 3543, 1.25 1143,60 1141 7 2,4cE-01 23.2 5.69E-01 1
25 0
543.87 282.
3848.
1.07 1165.19 1162 8 1.61E-01 38.5 5.61E-01 26 0
580.24 1354.
- 5003, 1,64 1742.70 1237 12 7.75E-01 10.O 5.31E-01 30 0
719,70 788.
3470.
1.46 1540.01 1535 11 4.51E-01 15.0 4.42E-01 31 0
741.85
- 846, 4049.
1.92 1507.'21 1580 14 4.83E-01 16.3 4.30E-C!
?
e 32 0
752.89 262.
- 2613, 1.13 1610.76 1607 9 1.50E-01 35,8 4.25E-01 I
35 0
806.01 2933.
- 4093, 1.80 1724.00 1716 15 1.68E 00 5.2 4.00E-01 l
M 36 0
S21.46 411.
3132.
2.12 1756.93 1752 11 2.35E-01 27,1 3.94E-01 l
J 77 0
826.10 350.
2525.
1.73 1766.89 1763 9 2,00E-01 26.5 3,92E-01 1
0 1052.04 738.
2186.
1.66 2248.46 2243 12 4.22E-01 13.5 3.17E-01 l e 42 0 1069.95 486.
1953.
1.69 2286.64 2283 10 2,78E-01 18,0 3.12E-01 l
o 44 0 1133.87
- 533, 1757.
1.89 2422.90 2418 10 3.05E-01 15.6 2.97E-01 l
e 45 0 1155,26 2946.
- 2837, 1.99 2468,4C 2461 17 1.soE 00 4, 7 2 92E-01 l
46 0 1181.81
- 533, 1941.
2.06 2525,10 2520 12 3.05E-01 17.2 2.86E-01 I
d 47 0 1207.73
- 626, 2048, 2.05 2580.35 2574 13 3,58E-01 15,3 2.80E-01 49 0 1253.16 706.
2442.
2.59 2677.21 2668 18 4.04E-01 16,9 2.71E-01 l
50 0 1280.93
- 2220, 2125, 2.04 2736.51 2729 16 1.27E 00 5.2 2.66E-?!
51 0 1304.05 118.
1236.
1.38 2785.68 2781 9 6.73E-02 54,4 2.62E-01 l
53 0 1385.35
54 2 1401.64 1827.
2038.
2.27 2993.73 2983 32 1.05E 00 5.9 2.46E-01 l
56 0 150C.33 2B81.
- 2524, 2.36 3223.29 3215 10 1.65E 00 4,6 2.30c-+*
57 0 1538.40 514.
2012.
2.00 3285.26 3278 14 2.94E-01 19,3 2.26E-01 l
58 0 1543.70 483.
1376.
- 1. C4 32o6.57 32o2 11 2.~%E-01 16.0 2.26E-01 59 0 1583.42 992.
1450.
2.22 3391.25 3373 16 5.67E-01 9.3 2.21E-01 60 0 1504.50 400.
61 0 1599.85 452.
863.
2.38 3416,27 3411 11 2.58E-01 13.9 2.19E-01 62 0 1661.49 1527.
1260 2.43 3547.67 3536 26 8.74E-01 7.1 2.11E-01 63 0 1683.90 268.
681.
1.59 3595.44 3588 15 1.53E-01 22.6 2.09E-01 e4 0 1692.60 341.
S27 1.96 3614.16 3606 17 1.c5E-01 26,4 2.OBE-(:
65 0 1729.70
- 4022, 809, 2.59 3693.07 3682 22 2.30E 00 2.4 2.04E-01 67 0 1830.48 457.
552.
3.06 3924,C7 3018 16 2.62E-01 12.7 1,C3E-61 68 0 1847.66 2504.
682.
2.38 3944.53 3934 20 1.43E 00 3.2 1.92E-01 69 0 1873.61 229.
379.
2.70 3o99.85 3935 11 1.31E-01 1 S. 3 1.COE ^!
70 0 2118.89 1239.
236.
2.63 4522.75 4512 22 7.09E-01 4.4 0.00E-01 72 0 2293.70 295.
55.
2,89 4895,42 4885 22 1.6cE-01 c.? 0.00E-C1 73 0 2448.11 1342.
62.
2.77 5224.59 5214 23 7.68E-01 3.3 0.00E-01 74 0 2694.31 10.
6, 1.29 5749,44 5746 7 5,08E-03 60.o 0.00E ^!
LINES NOT MEETING
SUMMARY
CRITERIA PK NUCLIDE ENEPGY HALFLIFE DECAY UCI / UNIT ABNDIFF CAILED 8 U-235 185.72 7.040E 08Y 1.000E O
1.974E -4 71.33%
ABN 9 SR-92
' 41.52 2
'.710E 00H 1.01SE O
5.746E -3
'2.9?%
ABN 2
- 5$ kU-I55 4654U 4.d4UE 06H 1.011E O
1.509E--5 18.44%
ABN i
22 LA-140 487.03 4.022E O!H 1.001E. 0 1.820E -5 24.60%
ABN 23 TL-208A 510,70 1.400E 10Y 1.000E O
1.213E -4 10.36%
ABN 29'NB-9'4 702.63 2.030E 04Y 1.000E O
9, 271 E --6 50.00%
ABN 39 Y-92' 934.46 3.540E 00H 1.014E O
3.884E -4
- 74.33%
ABN 40 EU-152 964.01 1.360E 01Y 1.000E O
4.489E -5 27.85%
ABN l
40 AC228A 964.87 5.750E 00Y 1.000E O
1.220E -4 5.51%
ABN I
43 SC-46 1120.51 O.333E 01D 1,000E
.0 2.617E -4 50.00%
ABN j
55 EU-152 1407.95 1.360E 01Y 1.000E 0.
1.933E -4 27.85%
ABN l
i
-1 I
l 1
i l
l 1
I l
l
-._---.--_a_._
SUt+1ARY ' OF NUCLIDE ACTIVITY PAGE '5 1
i
)
TOTAL LINES IN SPECTRUM 74 LINES NOT LISTED IN LIBRARY 49 IDENTIFIED IN
SUMMARY
REPORT 29 39.19%
ACTIVATION PRODUCT 1-SIGMA NUCLIDE SDHR HALFLIFE DECAY llCI / UNIT ERROR
%EPR F-18 AP 1.097E 02M 1.026 1.117E -5 1.188E -6 10.64 j
l 1
NATURAL PRODUCT l
1-SIGMA 1
l
- NUCLIDE SBHR HAL FL IFE DECAY UCI / UNIT EPROP
%EPR RA-226-NP 1.600E 03Y 1.000 1.741E -3 5.526E -6 0.32 PB-214 NP 2.680E 01M 1.088 1.875E -3 5.?28E -6 0.20 RA-226A NP 1.600E 03Y 1.000 2.461E -3 2.463E -5 1.00 1
RA6U235 NP 1.600E 03Y 1.000 1.575E -3 1.577E
-5 1.00 BI-214A NP 1.600E 03Y 1.000 1.767E -3 5.609E -6 0.32
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14-SEP-87 12:14: 27 l
~
coccooecooce******************co*ce***** coo *cconoco**co*******
NRC'MATR$ RIAL /WIEDbAN, SOIL FROM AREA OF A 87-386 SAMPLE DATE:
14-SEP-87 09: 00: 00 SAMPLE IDENTIFICATION:
87-386 TYPE OF SAMPLE:
SOIL / COMPOSITE SAMPLE QUANTITY:
400.0000 UNITS:
GM SAMPLE GEOMETRY:
L1500 EFFICIENCY FILE NAME:
LABE'F.L1500,.
e**+++++++++4***********4*4*v44***************4*****4*********
ACQUIRE DATE: 14-SEP-87 11:13:11
- FWHM(1332) 2.000 PRESET TIME (LIVE):
3600. SEC
- SENSITIVITY:
3.000 ELAPSED REAL TIME:
3600. SEC
- SHAPE PARAMETER : 10.0 %
ELAPSED L IVE TIME:
3600. SEC t NBP ITERATIONS:
10.
- 44**3*****4*L4****4:ltt*******************t**************
DETECTOR: ADC DETECTOR
- LIBRARY:NUCL.NATISA CALIB DATE:
11-SEP-87 15:52: 40
- ENERGY TOLERANCE:
0.900KV FEV/CHNL:
0.4691119
- HAL F L IFE P.^.TI 0:
D. 00
)
OFFSET:
-2.7248o59 VEV
- ABUNDANCE LIMIT:
80.00%
l 0.
COEFF. :
-2.922E-09 KEV /C**2
- 4 t *
- 4 * * * * * * * *
- 4 4 g * * * * * *
- g $ 4 * * * * * * * * * * * * * * * * * * *
- g, N g * *
- t * * * : t * * :,
4**4$4u **u u
+*4**+*****a4+++4*****u
- a******u ************
SPECTPUM FILE NAME: MATA1. SOIL 1,
l
- u
- u
- s t u s u n * ** u n u n u S
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ENERGW WINDOW:
4.31 TO 2811.84-i
- K IT
, ENERGY AREA
'BKGND FWHM CHANNEL LEFT' PW CTS /SEC % ERR FIT l,
1
'O 17.24 24.
84.
1.05 42,55 40 6 6. 72E--03 67. 3 2
0 37.74 68.
222.
6.41 86.27
'78 21 1.89E-02 56.5 i
3 0
53.68 37.
53.
O.66 120.25 117 7 1.01E-02 40.4 4
8 71.15 39, 110.
1.13 157.49 154 21 1.08E-02 40.0 6.92E 00 5
8 74.55 116.
106.
1.13 164.73 154 21 3.22E-02 10.5 o
8 76.94 143.
101.
1.13 169.81 154 21-3.96E-02 15.4 l
7 0
87.09 43, 119.
1.01 191.46 183-7 1.18E-02 47,7 8
0 92.67 39.
92.
1.35 203.35 200 7 1.09E-02 44.1 9
0 128.66 30.
79, 1.09 280.00 277 9 1.05E-02 4L.9 10 0
186.20 46.
63.
1.31 402.74 400 7 1.28E-02 34.2 0
209.69 29, 40.
1.19 452.01 440 7 7.96E-03 43,0 l
l 12 4
238.67 114.
61.
1.53 514.58 504 24 3.16E-02 16.2 2.22E 00 L
13 4
242.04 78.
63, 1.70 521,77 504 24 2.16E-02 24.5 l
14 0
288.37 14.
30.
1.27 620.53 615 9 3.91E-03 79.5
.15 0
295.30
- 126, 50.
- 1. 2o 635.20 631 11 3,49E-02 15.0 16 0
302,65 58.
29.
5.42 650.96 644 18 1.62E-02 22.0 17 0
332.54 20.
16, 1.19 714.60 711 9 7. 79E- 03 34. 7 18 0
337.98 12, 39.
0.84 726.27 723 9 3.44E-03 c9.1 19 0
352.01 220.
e.9.
1.17 756.20 750 11 6.20E-02
%)
20 0
357.46 1 ~7.
12.
1.13 767.80 765 6 4.74E-03 c3.9 21 0
45'.60 8.
6, O.56 970.63 969 6 2.'22E 03 ??,2 2
22 0
463.14 18.
24.
1.50 993.09 985 14 4.87E-03 75.9 23 0
477.75 49 14 1.11 1024.23 1021 8 1.35E-02 22.0 24 0
510.95 42.
33.
2.26 1095.00 1085 19 1.16E-02 41.4 25 0
552,20 16.
16.
O.65 1182.94 1177 16 4.44E-03 75.0 26 0
583.06 48.
23.
1.08 1248.72 1239 18 1.35E-02 31.5 27 0
609.39 219.
27, 1.43 1304.05 1246 10 6.OBE-02 C. 5 28 0
624,43 13.
29.
6.79 1336.92 1328 24 3.59E-03 ****
J 29 0
e61. 55 29, 12.
2.22 1416.03 1410 12 0,06E-03 2S.4 30 0
666.05 11.
5.
1.59 1425.e4 1422 8 3.02E-03 47.O i
?!
0 756.45 7.
2.
1.16 1610.35 1616 6 1,94 E- 03 %. 7 32 0
768.31 26.
1 O.
1.97 1643.62 1636 13 7.30E-03 77.9 33 0
839.17 12.
O.
1.79 1794.67 1786 16 3.33E-03 65.7 34 0
871.40 5.
6.
1.31 1863.39 1061 7 1.52E-03 E2.4 35 0
888.43 6.
I1.
3.35 1809.69 1OGO 15 1.62E-03 x m 3e 0
911.35 17, 3.
2.24 194S.54 1944 10 4.83E-03 75.8 37 0
935.46 9.
7, 2.55 1909.44 19c6 o 2.,45E-03 EL.0 38 0
94e.02 6.
1.
O.50 2022.44 2014 6 1.61E-03 55.6 34 0 1013.76 24.
B.
B. 80 2166.73 2155 20 6.7?E-03 55,9 40 0 1Oe7.89 16.
10.
7.84 2282.26 2275 20 4.32E-03 72.2 41 0 1120.5e 48, 10 1.23 23C4,52 7390 13 1.34E-02 :L '
42 0 1239.66 33, 5.
- 0. o6 2646.28 2e36 21 9.22E-03 2t. 4 43 0 1461.00 144.
5.
1.57 3120,2e 3111 3D 4.01E-02
- 0 44 0 1764.70 42.
O.
2.15 3767.69 3760 17 1.17E-02 13.5 PEAK SEARCH COMoLETED (REV 15.1) l PULEE-PILE-UP CORPECTED DATA. CORRECTION =
1.000 l
UNCOCR. LIVE TIME:
3600.CORPECTED LIVE TIME:
- 3600, i
l PK IT ENERGY APEA BKGND FWHM CHANNL_ LEFT PW CTS /SEC '4EPR 1
1 0
17,24 24 84.
1.05 42,55 40 6 6.72E-03 t.7.3 2
0 37,74 e8.
222.
6.41 86.27 78 21 1.89E-02 Es.5
{
3 0
53.60 37.
53.
O.66
'20,25 117 7 1,01E-02 49.4 i
4 8
71,15 39.
110.
1.13 157,49 154 21 1.08E-02 cc.O 5
8 74.55 116.
100.
1.13 164.77 154 21 3.22E-02 1E 5 i
6 8
76.44 143.
101.
1.13 169.81 154 21 3.96E-02 15.4
'l O
E7.09 43.
119 1.01 191.46 180 7 1.18E-02 c7.7 8
0 o2.67 39.
4 ~'.
1.35 203.35 200 7 1.09E-02 ca.1
_j
'I i ~ O 23956C 29.
40.
I.19 452.81 449 7 7.96E-03 43.8 12 4
238.67 114.
- 61. -
1.53 514.58 504 24 3.16E-02 16.2 13 4
242.04 78.
63.
1.70 521,77 504 24 2.16E-02 24,5
' 14' 0 '288.37 14 30.
1.27 620.53 615 9 3.91E-03 79.5 15 0
295.30 126.
50.
1.29 635.29 631 11 3.49E-02 15.0 16 0
302.65 58.
29.
5.42 650.96 644 18 1.62E-02 32.0 17 0
332.54 28.
16.
1.19 714.68 711 9 7.7CE-03 34.7 18 0
337.98 12.
39.
O.84 726.27 723 9 3.44E-03 98.1
.19 0
352.01
- 223, 39, 1.17 756,20 750 11 6,20E-02 c.1 20 0
357.46 17.
12.
1.13 767.80 765 6: 4. 74E-03 43. 9 21 0
452.60 8.
6.
0.56 970.63 C60 6 2.22E-03 73.2 22 0
463.14.
18.
24.
1.50 993.09 985 14 4.87E-03 75.9 23 0
477.75 49.
14, 1.11 1024,23 1021 0 1.35E-02 22.0 24 0
510.95 42.
33.
2.26 1095.00 1085 19 1.16E-02 41.4 25 0
552.20 16, 16.
0.65 1102.c4 1177 16 4.44E-03 75.0 26 0
583.06 48.
23.
1.00 1248.72 1239 18 1.35E-02 31.5 l
27 0
609.39
- 219, 27.
1.43 1304.85 1296 10 6.08E-02
- 3. 5 28 0
624.43 13.
29.
6.79 1336.92 1328 24 3.59E-03 ****
29 0
66!.55 29 12.
2.22 1416,03 1410 12 8.06E-03 20.4 i
30 0
666.05 11.
3.
1.59 1425,64 1422 8 3.02E-03 47.0 31 0
756.45 7.
2.
1.16 1618.35 1616 6 1,c4E-03 56.7 32 0
768.31 26.
10, 1.97 1643.62 1636 13 7.30E-03 37,9 33 0
839.17 12.
O, 1.79 1794.67 1786 16 3,33E-03 63.7 34 0
871.40 5.
6 1.31 1863.38 1861 7 1.52E-03 82.4 I
35 0
888.43 6.
11 3.35 1099.69 18o0 15 1.62E-03 us*
36 0
911.35 17.
3.
2.24 1948.54 1944 10 4.83E-03 35.8 37 0
935.46 9.
7.
2.55 1C9R,c4 1o96 9 2.45E-03 39.0 38 0
946.02 6.
1.
0.50 2022.44 2019 6 1.61E-03 58.6 39 0 1013.70 24.
D.
8.80
?!66,73 2155 29 6,73E-03 56.O 40 0 1067.89 16.
10.
7.84 22S2.26 2275 20 4.32E-03 72,2 41 0 1120.56 48.
1C.
1.23 2394.52 23E0 13 1.34E-02 20.7 42 0 1238.e6 33.
5.
O.96 2646.28 2636 21 9.22E-03 24.4 43 0 1461.00 144.
5.
1.57 3120.26 ?!11 10 4,01E-02 9, 0 44 0 1764.70 42.
O.
2.15 3767,69 3760 17 1.17E-02 18.5 PILE-UP CORRECTION COMRLETED (r W 21
.~ -
- NUCL1DE LINE ACTWITY REPORT PAGE 1
ELAPSED LIVE TIME 3600. (PILE-UP CORRECTED) 1 ACTIVATION PRODUCT l
1 SIGMA NUCLIDE EBHR ENERGY AREA DKGND
%ABN
- ?EFF UCI / UNIT ERROR BE-7 AP 477.59 49.
14.
10.42*
6.237E-01 1.408E -6 3,101E -7 F-18 AP 511.00 42.
33, 96,73*
5.903E-01 3.832E -7 1,50BE SC-46
'AP 889.25 6.
11.
99.98; 3.677E-01 2.976E -8 3.433E -8 1120.51 48.
10.
99.99*
2,997E-01
- 3. 032E --7 6.277E -D FISSION PRODUCT i
1 SIGMA NUCLIDE SDHR ENERGY AREA BVGND
%ABN
%EFF UCI-/ UNIT EPROR SR-92 FP 241.52 78.
60.
o.00 1.017E 00- 9.570E -6 2.348E -6 l
430.56 0.
O, 3.30 0,000E-01 0.000E O-O.000E O
{
l 953.32 0.
O.
3.60 0,000E-01 0.000E 9
0.000E O
l 1142.30 0,
O.
2,90 0,000E-01 0.000E O
0.000E O
I 1383.94 0.
O.
90.00*
0.000E-01 0.000E O
0.000E- 0 ZR-95 FP 724,18 0,
O.
43.70 0.000E-01 O.000E O
0,000E O
756.72 7.
2.
55.30*
4.229E-01 5.625E -8 3.189E -8 I
NB-94 FP 702.63 0,
0, 100.00*
0,000E-01 0,000E O
0.000E O
{
871.10 5.
6.
100.00 3.740E-01 2.73SE -8 2.255E -8 58-1'25 FP 176.33 0.
O, 6.89 0.000E-01 0.000E O
0,000E- 0 427.89 0.
O.
29.334 0.000E-01 0.000E 0
0.000E O
i 463.39 18.
24.
10.35 6.39 E-01 4,96EE
--7 3.76cE 7
I 600.Se O.
O.
17,80 0.000E-01 0.000E O
0.000E O
{
635,90 0,
0, 11,32 0.000E-01 0,000E O
0.000E O
12.
85.124 4.749E-01 1.346E -7 3.829E -8 CS-139 FP 462.70 10.
24, 30.70 6,39sE-01 5.245E -6 3,C7CE -6 1
546. C.:
O.
O.
10.80 0.000E-01 0.000E O
0.000E O
1009.79 0,
0, 29.30 0.000E-01 0.000E O
0.000E O
l 1435.86 0.
O.
76.30*
0.000E-01 0.000E O
0.000E O
2218.00 0,
O.
15,20 0,000E-01 6.000E O
0.000E O
,l BA-133 CP Bl. 00 0.
v.
of 00 0.000E-01 O.000E O
0.000E O
302.84 50.
29, 17.30 8.010E-01 6,906E -7 2.23FE 4 356.00 0.
O.
60.004 0.000E-01 0.000E O
0.000E O
l 1
1 NATURAL FRODUCY l
1 SIGMA NI.lCLIDE SBHR ENERGY APEA BKGND
"% BN
%ErF UCI / UNIT EPPOR K-40 NP 1460.81
- 144, 5.
10.e74 2.36'E-01 1.073E -5 9.662E -7 RA-226 hP 186.21 4e.
63.
3,28 1.15EE 00 2.277E -6
- 7. 762E 241.98 78.
e3.
7.49 1.017E 00 1.917E -6 4.704E -7 l
295.21 126.,
50.
1 c. 20 D.c67E-01 1.36EE -6 2.05EE -7
{
351.92 223.
39.
37.20 7.915E-01 1.423E -6 1.29eE -7 1
609.31
- 219, 27, 46.30*
5.Oo4E-01 1.743E -6 1.483E -7
)
1120.29 48.
10.
15,10 2.9?7E-01 2.006E e
4.153E -7 l
1230.11 33, 5.
- 5. c4 2.743E-01 3,824E -6 6.32EE -7
-l 1764.49 42.
O.
15,80 2.002E-01 2.492E -6 4.599E -7 2204.2:
O.
O.
4 cB 0.000E-01 0,000E O
0,000E O
l j
N U IDU U kE dCT[VIEE REPORI PAGE 2
ELAPSED LIVE TIME
'3600. (PILE-UP CORRECTED)
NATURAL PRODUCT 1 SIGMA NUCLIDE SSHR ENERGY AREA DKGND
%ABN
%EFF UCI / UNIT ERROR PB-214 NP 52.14 0.
O.
1.06 0,000E-01 0.000E O-O.000E O
241.92 73.
63.
8.76 1,Ol'E 00 1.011E
-4 2, 481 E - 5 259.09 0.
O.
O.50 0.000E-01 0.000E O
0.000E O
274.75 0.
O.
O.39 0.000E-01 0,000E O
0.000E O
295.22 126.
50.
19.84 8.967E-01 8.168E.-5 1.229E -5 351.89
- 223, 39, 43.45*
7.915E-01 7.514E -5 6,844E -6
-l 785.97 0.
O.
O.90 0.000E-01 0.000E O
0,000E O
RA-226A NP 186.10 46, 63.
4.50*
1.15SE 00 1.657E -6
- 5. 658E --7 RA6U235 NP 186.10 46.
63.
7.03*
1.15SE 00 1.060E -6 3.622E -7 j
TH-234A NP 92.00 39, 92.
16.55*
1.16eE 00 3.800E -7 1.675E
--?
U-235 NP 109.15 O.
O.
1.55 O.000E-01 0.000E O
0.000E- 0 143.76 0,
O.
10.50*
0.000E-01 0.000E O
0.000E O
163.35 O.
O.
4.77 0.000E-01 0.000E O
0.000E O
3 185.72 46, 63, 56.10 1.158E 00 1.329E 4. 538E
--D 1
)
l 202.14 0.
O.
O.86 0,000E-01 0.000E- 0 0.000E O
205.31 0.
O.
4.87 0,000E-01 0,000E O
0.000E O
TH-232 NP 238 e3 114.
61.
44.60 1.025E 00 4.670E -7 7.558E -8 l
330.72 12, 39.
I1,40 8.155E ': 1 2,498E 2.449E -7 l
727.17 0.
O.
11.80 0.000E-01 0.000E O
0.000E O
553.14 48, 23, 30.25
- 5. 207E- 01 5,685E -7 1.7o1E -7 911.07 17.
3.
27.70 3.595E-01 3.279E -7 1.173E -7 969.11 0,
0, 16.60 0.000E-01 0.000E O
0.000E o
I 2614.e6 0.
O.
35.Be*
0.000E-01 0.000E O
O.000E O
j BI-214A NP 609.00
- 219, 27, 45.62*
5,094E-01 1.76CE -6 1.505E
-7 l
665.42 11.
3.
1.25 4.722E-01 3.453E -e 1.622E -6 1
768. :. -
2e.
10, 4.97 4.17 E- 01 2.380E -o C.022E
-7 787.00 0.
O.
1.30 0.000E-01 0.000E O
O.000E O
l 83o.20 12, O.
O 68 T..CoFE-01 3,56CE -d
- 5. Ef1PE -G 934.OL 0.
O.
2.64 0.000E-01 0.000E O
0,000E O
j 1l' 0.00 48.
10, 12.34 2.9c7E-01 2.454E -6 5.091E 2
1238.10 33, 5.
3.41 2.7M E-01 6.e62E -6 1.e25E -e 1377.E2 0.
O.
4.84 0.000E-01 6.000E O
0.000E O
j 1
17e4.50 42.
O.
15.42 2.002E-01 2.554E -e 4.712E -7 2204.10 O.
0-5.32 0,0005-01 0.000E O
0.000E O
U-238 NP 131.20 0.
O.
20,40+
0.000E-01 0.000E O
0,000E O
152 'O 0.
'O.
6.90 0.000E-01 0.000E O
0.000E 6
Seo.50 0.
O.
11.00 0.000E-01 0.000E O
0.000E O
880.51 0.
O.
12.24 6.000E-01 0.000E O
0.000E O
883.24 0.
O.
12.00 0.000E-01 0.000E O
0.000E O
926.00 0.
O.
I1.20 0.000E-01 0.000E O
O.000E o
l 94e.00 6.
1.
12.00 3.479E-01 2.e01E -7 1.525E -7 l
l l
l:
l
h)l' Cl} DE (~I E d' iIh1T ' R5 PORT-
[
PAGE 3
~
C ELAPSED LIVE TIMES 3600,- (PILE-UP CORRECTED)
NATURAL PRODUCT 1 SIGMA NUCLIDE SBHR ENEPGY AREA BKGND
%ABN
%EFF
. IICI / UNIT ERROR AC228A
~NP 129.07 38.
79.
2.72 1.258E 00 2.075E -6 1.033E -6 209,24 29, 40.
4.07 1,098E 00 1.203E -6 5,276E. "
270.22 0.
O.
3.44' O.000E-01 0.000E O
0.000E O
327,97 0,
O.
3.04 0.000E-01 0.000E O
0,000E 0
409.45 O.
O.
1.92 0.000E-01 0.000E O
0.000E O
562.62 0.
O, 1.08 0,000E-01 0,000E O
0.000E O
727.00 0.
O.
8.51 0,000E-01 0.000E O
0.000E O
755.37 0,
O.
1.07 0.000E-01 0,000E O
0.000E O
772.15 O.
O.
1.50 0.000E-01 0.000E O
0,000E O
782.20 0,
O.
O.52 0.000E-01.O.000E O
0.000E
'O 795.02 0.
O.
'4,19 0.000E-01 0.000E O
0.000E O
835.80 0.
O.
1.66 0.000E-01 0.000E O
0,000E O
840.41 0.
O.
O.83 0.000E-01 0.000E O
0.000E O
911.30 17, 3,
29.69*
3.So5E-01 3,060E -7 1, 095E
--7 958.70 0.
O.
O.34 0,000E-01 0.000E O
0.000E O
964.07 0,
0, 5.30 O.000E-01 0.000E O
0.000E- 0 l
l 969.OE 0.
O.
18.28 0.000E-01 0.000E O
0,000E O
J l
1033.39 0.
O, 2.00 0.000E-01 0.000E O
0.000E O
l 1588.20 0.
O.
3.77 0.000E-01 0.000E O
O.000E O
l 1630.00 0,
O.
1.76 0,000E-01 0.000E O
O.000E O
l 1638,29 0.
O.
O.49 0.000E-01 0.000E
-0 0,000E 0
l PB-212 NP 230,60
- 114, 61.
49.623 1.025E 00 5.I16E -7 S.281E -r 300.03 0.
O.
3.14 0.000E-01 0.000E O
0.000E O
)
PB-212A NP 238.60 114.
61.
40.62*
1,025E 00 4.284E -7 6.933E -9 300.03 O.
O.
3.14 0.000E-01 0.000E O
0.OOOE O
TL-20.8A NP 277.09 0.
O.
2.03 0, 000E- 01 0.000E G
0.000E O
510.70 4'
?7 8.68 S.903E-01 1.533E -e e.,.:.5 1 E - 7 553.20 48, 23, 32.15a 5.287E-01 5.34cE -7 1.695E
~
Be0. 65 0,
0, 4.99 0.000E-01 0.000E O
0.000E O
1094.30 o,
O.
- 1. 01 0,000E~01 0.000E O
O.000E O
9614,50 0.
0.
34,89 0.000E-01 0.000E O
0.000E O
l l
UNKNCMN-LINE REPORT PAGE 4'
]
ELAPSED LIVE TIME 3600. (PILE-UP COPRFCTED) j LINES NCIT L85TED IN LIBRARY PK IT ENERGY AREA BKGND FWHM CHANNEL LEFT PW CTS /SEC % ERR XEFF l
1 0
17.24 24.
84, 1.05 42.55 40 6 6.77E-03 67.3 0.00E-01 2
0 37.74 68.
222.
6.41 86.27 78 21 1.89E-02 56.5 0.00E-01 3
0 53.69 37.
53.
0.66 120.25 117 7 1.01E-02 40.'4 0.00E-01 4
8 71.15 39, 110.
1.13 157.49 154 21 1.08E-02 49.0 9.57E-01 i
5 8
74.55 116.
106.
1.13 164.73 154 21 3.22E-02 18.5 9.96E-02 l
6' 8 76.94 143.
101.
1.13 169.81 154 21 3.96E-02'15.4 1.02E 00
-I 7
0 87.09 43.
11o.
1.01 191.46 188 7 1.10E-02 47.7 1.12E 00.
j 14 0
288.37 14 30.
1.27 620.53 615 9 3.91E-03 79.5 9.11E-01 i
17 0 2:12. 54 28.
16, 1.19 714,68 711 9 7.79E-03 34.7 8.25E-01 20 0
357.46 17.
12.
1.13
-767.80 765 6 4.74E-03 43.9 7.83E-01 21 0
452.60 8.
6.
0.56 o70.63 968 6 2.22E-03 73.2 6.52E-01 l
25 0
552.20 16.
16.
0.65 1182.94 1177 16 4.44E-03 75.0 5.53E-01
)
28 0
624.43 13.
29.
6.79 1336.92 1328 24 3.59E-03 **** 4.09E-01 1
37 0
935.46 9.
7.
2.55 1999.94 1996 9 2.45E-03 89.0 3.51E-01 39 0 1013.70 24, 8.
D 80 2166,73 2155 29 6.73E-03 56.o 3.27E-01 40 0 1067.89 16, 10.
7.84 2282.26 2275 20 4.32E-03 72.2 3.13E-01 1
I i
l LINES NOT MEETING
SUMMARY
CRITEPIA l
PI' NUCL1DE ENERGY
. HALFLIFE DECAY UCI / UNIT ABNDIFF FAILED 9 AC228A 129.07 5.750E 00Y 1.000E O
2.075E -6 37 C3%
ABN j
10 U-235 185.72 7.040E 08Y 1.000E O
1.329E -7 71.33%
ABN i
11 AC228A 209.24 5.750E 00Y 1.000E O
i.203E -6 37.93%
ABN 12 TH-232 23.63 1.000E 10Y 1.000E O
4.670E -7 63.94%
ABN 13 SP-92 241.52 2.710E 00H 2.000E O
o.570E -6 2.42%
AES!
l 16 BA-133 302.84 1.050E 01Y 1.000E O
6.996E -7 16.06%
ABN I
18 TH-2I2 333.32 1.000E 10Y 1.000E O
- 2. 49EE -7 63,o4%
ABN i
l 22 58-125 463.78 2.770E 00Y 1.000E O
4.968E -7 13.67%
ABN l
l 22 CS-138 4e2,79 3.220E O!M 3.132E 1
5.245E -6 13.86%
ABN i
24 TL-208A 510.70 1.400E 10Y 1.000E O
1.53?E -6 48,75%
ABN 26 TH-232 583.14 1.000E 10Y 1.000E O
5.685E -7 63.94%
ABil 26 TL-20SA 583.20 1.400E 10Y 1.000E O
5.349E -7 48.75%
ABN 31 ZR-95 756.72 6.402E 01D 1.001E O
5.625E -8 55.86%
ABN 34 NS-94 871.10 2.030E 04Y 1.000E O
2.738E -8 50.00%
ABN 36 TH-232 911.07 1.000E 10Y 1.000E O
7.27CE -7 67.,94%
ADN 36 AC228A 911.30 5.750E 00Y 1.000E O
3.060E -7 37,93%
ABN l
3B U-238 946.00 1.000E 10Y 1.000E O
2.601E -7 14.01%
ABN 1
1 I
l l
SUMMARY
'OF NUCLIDE ACTIVITY' PAGE 5
TdTAL LINES IN SPECTRUM 44 LINDS NdT' LISTED'IN LIBRARY 16 IDENTIFIED IN
SUMMARY
REPORT 29 65.91%
ACT!VATION PRODUCT 1-SIGMA NUCLIDE. SBHR HALFLIFE DECAY UCI / UNIT EPROR
%EPR BE-7 AP 5.344E 01D 1.001 1.408E -6 3.101E -7 22.03 F-18 AP 1.097E 02M 2.786 3.832E -7 1.588E -7 41.43 SC-46 AP-8.3R3E 01D 1.001 3.032E ~7 6.277E -8 20.70 FISSION PRODUCT 1-SIGMA NUCLIDE 'SDHR HALFLIFE.
DECAY UCI / UNIT ERROR
%EPR
'CS-137 FP 3.017E 01Y 1.000 1.346E -7 3.829E -8 28.44 NATURAL PRODUCT l SIGMA NUCLIDE-SBHR' HALFLIFE DECAY UCI / UNIT ERROR
% ERR K-40 NP 1.277E 09Y 1.000 1.073E -5
.9.662E -7 9.01 RA-226 NP
-1.600E 03Y 1.000-1.747E.-6 1,403E -7 8.51 PB-214 NP 2.680E-01M-61.690 7.514E -5 6.844E -6 9.11 i
RA-226A NP 1.600E 03Y 1.000 1.657E -6 5.65PE -7
.34.15 RA6U235 NP 1.600E 03Y 1.000 1.06'0E -6 3.622E -7
'34.15 TH-234A NP 4,468E 09Y 1.000 3.800E 1.675E--7 44.07 B1-214A NP 1.600E 03Y 1.000 1.769E -6 1.505E -7 8.51 PD-212 NP 1.060E O!H 1.194 5.116E -7 8.231E -8 16.10 PB-212A NP 1.400E 10Y 1.000 4.284E ~7 6.93?E -8 16.18 q
I t
'l 1
I i
J