200/20001.001:STANDARD (94-PU-239,NF,RI) DATA IN MEASUREMENT 1 (3.8-250 EV 200/20002.001:STANDARD (94-PU-239,ETA) NORMALIZED BETWEEN 65.39 EV AND 200/20003.001:STANDARD (92-U-233,NF) TO SIGMA(THERMAL) = 524.5+-1.9 B 200/20004.002:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.003:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.004:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.005:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.006:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.007:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.009:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.010:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.011:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.012:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.013:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.014:STANDARD (RATIO) 200/20004.016:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.017:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.018:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.019:STANDARD (RATIO) 200/20004.021:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.022:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.023:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.024:STANDARD (RATIO) 200/20004.026:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.027:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.028:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.029:STANDARD (RATIO) 200/20004.031:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.032:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.033:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.034:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.035:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.036:STANDARD (RATIO) 200/20004.038:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.039:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.040:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.041:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.043:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.044:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.045:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.046:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.047:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.048:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.049:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.050:STANDARD (RATIO) 200/20004.052:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.053:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.054:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.055:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.057:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.058:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.059:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.060:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.061:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.062:STANDARD (RATIO) 200/20004.064:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.065:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.066:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.067:STANDARD (RATIO) 200/20004.069:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.070:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.071:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.072:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.073:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.074:STANDARD (RATIO) 200/20004.076:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.077:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.078:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.079:STANDARD (RATIO) 200/20004.081:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.082:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.083:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.084:STANDARD (RATIO) 200/20004.086:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.087:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.088:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.089:STANDARD (RATIO) 200/20004.091:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.092:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.093:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.094:STANDARD (RATIO) 200/20004.095:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.096:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.099:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.100:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.101:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.102:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.103:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.104:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.105:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.106:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.107:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.108:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.109:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.110:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20004.111:STANDARD (26-FE-56,PEM,DA) AT 120 DEGREES, 200/20005.001:STANDARD (94-PU-239,NF) IMPURITY RESONANCES USED FOR 200/20006.002:STANDARD (29-CU-0,NG) 200/20006.003:STANDARD (90-TH-232,NG) SEE ANALYSIS. 200/20007.001:STANDARD (1-H-1,EL,DA) POLYETHYLENE SAMPLE USED. 200/20008.002:STANDARD (1-H-1,EL) MEASURED WITH POLYETHYLENE SAMPLE 200/20008.003:STANDARD (1-H-1,EL) MEASURED WITH POLYETHYLENE SAMPLE 200/20008.004:STANDARD (1-H-1,EL) MEASURED WITH POLYETHYLENE SAMPLE 200/20008.005:STANDARD (1-H-1,EL) MEASURED WITH POLYETHYLENE SAMPLE 200/20008.006:STANDARD (1-H-1,EL) MEASURED WITH POLYETHYLENE SAMPLE 200/20008.007:STANDARD (1-H-1,EL) MEASURED WITH POLYETHYLENE SAMPLE 200/20008.008:STANDARD (1-H-1,EL) MEASURED WITH POLYETHYLENE SAMPLE 200/20008.009:STANDARD (1-H-1,EL) MEASURED WITH POLYETHYLENE SAMPLE 200/20008.010:STANDARD (1-H-1,EL) MEASURED WITH POLYETHYLENE SAMPLE 200/20008.011:STANDARD (1-H-1,EL) MEASURED WITH POLYETHYLENE SAMPLE 200/20008.012:STANDARD (1-H-1,EL) MEASURED WITH POLYETHYLENE SAMPLE 200/20008.013:STANDARD (1-H-1,EL) MEASURED WITH POLYETHYLENE SAMPLE 200/20008.014:STANDARD (1-H-1,EL) MEASURED WITH POLYETHYLENE SAMPLE 200/20008.015:STANDARD (1-H-1,EL) MEASURED WITH POLYETHYLENE SAMPLE 200/20008.016:STANDARD (1-H-1,EL) MEASURED WITH POLYETHYLENE SAMPLE 200/20008.017:STANDARD (1-H-1,EL) MEASURED WITH POLYETHYLENE SAMPLE 200/20008.018:STANDARD (1-H-1,EL) MEASURED WITH POLYETHYLENE SAMPLE 200/20008.019:STANDARD (1-H-1,EL) MEASURED WITH POLYETHYLENE SAMPLE 200/20008.020:STANDARD (1-H-1,EL) MEASURED WITH POLYETHYLENE SAMPLE 200/20008.021:STANDARD (1-H-1,EL) MEASURED WITH POLYETHYLENE SAMPLE 200/20008.022:STANDARD (1-H-1,EL) MEASURED WITH POLYETHYLENE SAMPLE 200/20008.023:STANDARD (1-H-1,EL) MEASURED WITH POLYETHYLENE SAMPLE 200/20008.024:STANDARD (1-H-1,EL) MEASURED WITH POLYETHYLENE SAMPLE 200/20008.025:STANDARD (1-H-1,EL) MEASURED WITH POLYETHYLENE SAMPLE 200/20008.026:STANDARD (1-H-1,EL) MEASURED WITH POLYETHYLENE SAMPLE 200/20008.027:STANDARD (1-H-1,EL) MEASURED WITH POLYETHYLENE SAMPLE 200/20008.028:STANDARD (1-H-1,EL) MEASURED WITH POLYETHYLENE SAMPLE 200/20008.029:STANDARD (1-H-1,EL) MEASURED WITH POLYETHYLENE SAMPLE 200/20008.030:STANDARD (1-H-1,EL) MEASURED WITH POLYETHYLENE SAMPLE 200/20008.031:STANDARD (1-H-1,EL) MEASURED WITH POLYETHYLENE SAMPLE 200/20008.032:STANDARD (1-H-1,EL) MEASURED WITH POLYETHYLENE SAMPLE 200/20008.033:STANDARD (1-H-1,EL) MEASURED WITH POLYETHYLENE SAMPLE 200/20008.034:STANDARD (1-H-1,EL) MEASURED WITH POLYETHYLENE SAMPLE 200/20008.035:STANDARD (1-H-1,EL) MEASURED WITH POLYETHYLENE SAMPLE 200/20008.036:STANDARD (26-FE-56,INL) INTEGRATED CROSS SECTIONS FROM 200/20008.037:STANDARD (26-FE-56,INL) INTEGRATED CROSS SECTIONS FROM 200/20008.038:STANDARD (26-FE-56,INL) INTEGRATED CROSS SECTIONS FROM 200/20008.039:STANDARD (26-FE-56,INL) INTEGRATED CROSS SECTIONS FROM 200/20008.040:STANDARD (26-FE-56,INL) INTEGRATED CROSS SECTIONS FROM 200/20008.041:STANDARD (26-FE-56,INL) INTEGRATED CROSS SECTIONS FROM 200/20008.042:STANDARD (26-FE-56,INL) INTEGRATED CROSS SECTIONS FROM 200/20008.043:STANDARD (26-FE-56,INL) INTEGRATED CROSS SECTIONS FROM 200/20008.044:STANDARD (26-FE-56,INL) INTEGRATED CROSS SECTIONS FROM 200/20008.045:STANDARD (26-FE-56,INL) INTEGRATED CROSS SECTIONS FROM 200/20008.046:STANDARD (26-FE-56,INL) INTEGRATED CROSS SECTIONS FROM 200/20008.047:STANDARD (26-FE-56,INL) INTEGRATED CROSS SECTIONS FROM 200/20008.048:STANDARD (26-FE-56,INL) INTEGRATED CROSS SECTIONS FROM 200/20008.049:STANDARD (26-FE-56,INL) INTEGRATED CROSS SECTIONS FROM 200/20008.050:STANDARD (26-FE-56,INL) INTEGRATED CROSS SECTIONS FROM 200/20008.051:STANDARD (26-FE-56,INL) INTEGRATED CROSS SECTIONS FROM 200/20008.052:STANDARD (26-FE-56,INL) INTEGRATED CROSS SECTIONS FROM 200/20009.001:STANDARD (94-PU-241,NF,RI) PARTIAL FISSION RESONANCE INTEGRAL 200/20013.001:STANDARD .ABSOLUTE MEASUREMENT. 200/20015.001:STANDARD (ABSOL) ABSOLUTE MEASUREMENT. 200/20016.001:STANDARD (ABSOL) ABSOLUTE MEASUREMENT. 200/20017.001:STANDARD (13-AL-27,NA) = 0.56 MILLIBARN 200/20019.002:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.003:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.004:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.005:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.006:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.007:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.008:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.009:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.010:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.011:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.012:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.013:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.014:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.015:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.016:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.017:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.018:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.019:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.020:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.021:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.022:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.023:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.024:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.025:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.026:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.027:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.028:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.029:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.030:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.031:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.032:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.033:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.034:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.035:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.036:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.037:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.038:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.039:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.040:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.041:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.042:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.043:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.044:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.045:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.046:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.047:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.048:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.049:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.050:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.051:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.052:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.053:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.054:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.055:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.056:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.057:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.058:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.059:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.060:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.061:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.062:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.063:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.064:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.065:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.066:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.067:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.068:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.069:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.070:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.071:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.072:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.073:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.074:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.075:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.076:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.077:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.078:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.079:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.080:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.081:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.082:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.083:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.084:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.085:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.086:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.087:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.088:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.089:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.090:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.091:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.092:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.093:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.094:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.095:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.096:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.097:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.098:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.099:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.100:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.101:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.102:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.103:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.104:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.105:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.106:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.107:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.108:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.109:STANDARD (6-C-0,EL,DA) FOR THE E(N) = 1.46 MEV, THE CARBON 200/20019.110:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.111:STANDARD (6-C-0,EL,DA) FOR THE E(N) = 1.46 MEV, THE CARBON 200/20019.112:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.113:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.114:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.115:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.116:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.117:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.118:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.119:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.120:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.121:STANDARD (6-C-0,EL,DA) FOR THE E(N) = 1.46 MEV, THE CARBON 200/20019.122:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.123:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.124:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.125:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.126:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.127:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.128:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.129:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.130:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.132:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.133:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.134:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.135:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.136:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.137:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.138:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.139:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.140:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.141:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.142:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.143:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.144:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.145:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.146:STANDARD (6-C-0,EL,DA) FOR THE E(N) = 1.46 MEV, THE CARBON 200/20019.147:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.148:STANDARD (6-C-0,EL,DA) FOR THE E(N) = 1.46 MEV, THE CARBON 200/20019.149:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.150:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.151:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.152:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.153:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.154:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.155:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.156:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.157:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.158:STANDARD (6-C-0,EL,DA) FOR THE E(N) = 1.46 MEV, THE CARBON 200/20019.159:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.160:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.161:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.162:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.163:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.164:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.165:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.166:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.167:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.168:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.169:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.170:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.171:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.172:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.173:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.174:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.175:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.176:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.177:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.178:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.179:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.180:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.181:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.182:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.183:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.184:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.185:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.186:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.187:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.188:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.189:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.190:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.191:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.192:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.193:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.194:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.195:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.196:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.197:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.198:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.199:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.200:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.201:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.202:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.203:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.204:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.205:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.206:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.207:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.208:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.209:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.210:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.211:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.212:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.213:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.214:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.215:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.216:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.217:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.218:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20019.219:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM IN LENGTH, 200/20021.001:STANDARD (ABSOL) TRANSMISSION MEASUREMENT. 200/20023.001:STANDARD (ABSOL) CROSS SECTION DERIVED FROM THE ABSORPTION 200/20024.001:STANDARD (47-AG-0,NG) SIGMA(N,GAMMA) = 1.185 BARN AT 24 KEV 200/20027.001:STANDARD (26-FE-56,ING,DA,PAR) MEASURED IS THE 845 KEV GAMMA 200/20028.001:STANDARD (ABSOL) ABSOLUTE 200/20029.001:STANDARD (90-TH-232,NG) THERMAL CROSS SECTION 200/20030.002:STANDARD (25-MN-55,NA) SIGMA = 13.8 MB+- 15 PERC 200/20030.003:STANDARD (13-AL-27,NA) SIGMA = 118 +- 6 MB 200/20030.004:STANDARD (27-CO-59,NA) SIGMA = 30 MB +- 10 PERC. 200/20030.005:STANDARD (33-AS-75,NA) SIGMA = 10.2 MB +- 7 PERC. 200/20030.006:STANDARD (13-AL-27,NA) SIGMA = 118 +- 6 MB 200/20031.001:STANDARD (STANS) 29-CU-62 STANDARD SOURCE. 200/20032.001:STANDARD (ABSOL) ABSOLUTE 200/20034.001:STANDARD (13-AL-27,NA) 200/20035.001:STANDARD (27-CO-59,NG) SIGMA = 3.72+-0.6 BARN 200/20038.001:STANDARD (ABSOL) TRANSMISSION EXPERIMENT. 200/20039.001:STANDARD (1-H-1,EL,DA) 200/20040.001:STANDARD (1-H-1,EL,DA) DIFFERENTIAL SCATTERING CROSS 200/20041.002:STANDARD (NONE ) NO INFORMATION AVAILABLE. 200/20041.003:STANDARD (15-P-31,NP) 200/20041.004:STANDARD (NONE ) NO INFORMATION AVAILABLE. 200/20041.005:STANDARD (NONE ) NO INFORMATION AVAILABLE. 200/20043.001:STANDARD (RATIO) 200/20044.001:STANDARD (79-AU-197,NG) SIGMA(2200 M/SEC.) = 98.8 BARN, 200/20047.003:STANDARD (11-NA-23,NG) SIGMA = 0.50 B. 200/20047.004:STANDARD (11-NA-23,NG) SIGMA = 0.534 B. 200/20048.001:STANDARD (79-AU-197,NG) SIGMA(0) = 98.8 +- 0.3 BNL-325 200/20050.002:STANDARD (79-AU-197,NG,RI) RESONANCE INTEGRAL = 1490+-40 BARNS 200/20050.003:STANDARD (79-AU-197,NG,RI) RESONANCE INTEGRAL = 1490+-40 BARNS 200/20050.004:STANDARD (79-AU-197,NG,RI) RESONANCE INTEGRAL = 1490+-40 BARNS 200/20050.005:STANDARD (79-AU-197,NG,RI) RESONANCE INTEGRAL = 1490+-40 BARNS 200/20051.001:STANDARD (11-NA-23,NG) CROSS-SECTION = 531+-8 MILLIBARN. 200/20053.001:STANDARD (13-AL-27,NA,,SPA) CROSS SECTION(AVERAGED OVER FISSION 200/20054.001:STANDARD (79-AU-197,NG,RI) 200/20055.003:STANDARD (NONE ) ARBITRARY UNITS. 200/20055.004:STANDARD (13-AL-27,NA) SIGMA = 116 MILLIBARN. 200/20055.006:STANDARD (NONE ) ARBITRARY UNITS. 200/20055.007:STANDARD (13-AL-27,NA) SIGMA = 116 MILLIBARN. 200/20056.002:STANDARD (1-H-1,EL) POLYETHYLENE FILM 19 MICROM. THICK. 200/20056.003:STANDARD (1-H-1,EL) POLYETHYLENE FILM 19 MICROM. THICK 200/20060.002:STANDARD (RATIO) RATIO 200/20060.003:STANDARD (92-U-238,EL) SIGMA(N,N) = 12.3 BARNS BNL-325 200/20061.001:STANDARD (1-H-1,EL) TOTAL NEUTRON-PROTON SCATTERING 200/20062.002:STANDARD (RATIO) RATIO. 200/20062.003:STANDARD (81-TL-203,N2N) SIGMA = 1.33 B. FROM PRESTWOOD ET AL., 200/20062.004:STANDARD (81-TL-203,N2N) SIGMA = 1.33 B. FROM PRESTWOOD ET AL., 200/20063.002:STANDARD (13-AL-27,NA) SIGMA = 118 MILLIBARN +- 5 PER-CENT. 200/20063.003:STANDARD (13-AL-27,NA) SIGMA = 118 MILLIBARN +- 5 PER-CENT. 200/20063.004:STANDARD (RATIO) RATIO. 200/20063.005:STANDARD (13-AL-27,NA) SIGMA = 118 MILLIBARN +- 5 PER-CENT. 200/20063.006:STANDARD (13-AL-27,NA) SIGMA = 118 MILLIBARN +- 5 PER-CENT. 200/20063.007:STANDARD (13-AL-27,NA) SIGMA = 118 MILLIBARN +- 5 PER-CENT. 200/20063.008:STANDARD (RATIO) RATIO. 200/20064.001:STANDARD (NONE ) ARBITRARY UNITS. 200/20065.001:STANDARD (ABSOL) ABSOLUTE 200/20066.001:STANDARD (6-C-0,EL,DA) DIFFERENTIAL ELASTIC CROSS SECTION OF 200/20068.001:STANDARD (ABSOL) ABSOLUTE 200/20069.001:STANDARD (1-H-1,EL) FROM A.HORSLEY (J,NUCL.DATA.2A(1966)243). 200/20070.001:STANDARD (OTHER) T(P,N) NEUTRON PRODUCTION CROSS-SECTION. 200/20071.002:STANDARD (13-AL-27,NA) SIGMA = 111.5 +- 2 MILLIBARN. 200/20071.003:STANDARD (13-AL-27,NA) SIGMA = 111.5 +- 2 MILLIBARN. 200/20071.004:STANDARD (13-AL-27,NA) SIGMA = 111.5 +- 2 MILLIBARN. 200/20071.005:STANDARD (RATIO) RATIO 200/20071.006:STANDARD (13-AL-27,NA) SIGMA = 111.5 +- 2 MILLIBARN. 200/20071.007:STANDARD (13-AL-27,NA) SIGMA = 111.5 +- 2 MILLIBARN. 200/20071.008:STANDARD (13-AL-27,NA) SIGMA = 111.5 +- 2 MILLIBARN. 200/20071.009:STANDARD (RATIO) 200/20078.001:STANDARD (ABSOL) ABSOLUTE 200/20079.001:STANDARD (ABSOL) ABSOLUTE 200/20080.001:STANDARD (NONE ) NO INFORMATION GIVEN. 200/20081.001:STANDARD (13-AL-27,NA) SIGMA = 116 MILLIBARN +- 5 PER-CENT. 200/20082.001:STANDARD (13-AL-27,NA) SIGMA = 117 MB +- 5 PERC. 200/20084.001:STANDARD (RATIO) RATIO 200/20085.001:STANDARD (13-AL-27,NA) AT 14.7+-0.1 MEV, SIGMA = 200/20086.001:STANDARD (13-AL-27,NA) SIGMA = 116 +- 8 MILLIBARN. 200/20088.001:STANDARD (13-AL-27,NA) SIGMA = 116 MB 200/20090.001:STANDARD (13-AL-27,NA) SIGMA = 116 +- 8 MILLIBARN. 200/20091.001:STANDARD (13-AL-27,NA) SIGMA = 116 MILLIBARN. 200/20093.001:STANDARD (79-AU-197,NG) SIGMA(2200 M/SEC.) = 98.8 BARN, 200/20094.001:STANDARD (79-AU-197,NG) SIGMA(2200 M/SEC.) = 98.8 BARN, 200/20097.001:STANDARD (ABSOL) ABSOLUTE 200/20099.002:STANDARD (16-S-32,NP) SIGMA = 0.012 B. 201/20102.001:STANDARD (ABSOL) ABSOLUTE. 201/20103.001:STANDARD (ABSOL) ABSOLUTE. 201/20104.001:STANDARD (ABSOL) ABSOLUTE 201/20107.001:STANDARD (15-P-31,NP) CROSS SECTION = 86.+-3. MILLIB. 201/20108.001:STANDARD (13-AL-27,NA,,SPA) FISSION SPECTRUM AVERAGED 201/20109.001:STANDARD (28-NI-58,NP) CROSS SECTION = 105 MILLIB. OF 201/20110.002:STANDARD (28-NI-58,NP,,SPA) 201/20110.003:STANDARD (22-TI-46,NP,,SPA) 201/20110.004:STANDARD (29-CU-63,NA,,SPA) 201/20110.005:STANDARD (28-NI-58,NP,,SPA) 201/20110.006:STANDARD (28-NI-58,NP,,SPA) 201/20110.007:STANDARD (22-TI-46,NP,,SPA) 201/20110.008:STANDARD (29-CU-63,NA,,SPA) 201/20110.009:STANDARD (28-NI-58,NP,,SPA) 201/20110.010:STANDARD (28-NI-58,NP,,SPA) 201/20110.011:STANDARD (22-TI-46,NP,,SPA) 201/20110.012:STANDARD (29-CU-63,NA,,SPA) 201/20110.013:STANDARD (28-NI-58,NP,,SPA) 201/20110.014:STANDARD (28-NI-58,NP,,SPA) 201/20110.015:STANDARD (22-TI-46,NP,,SPA) 201/20110.016:STANDARD (29-CU-63,NA,,SPA) 201/20110.017:STANDARD (28-NI-58,NP,,SPA) 201/20110.018:STANDARD (28-NI-58,NP,,SPA) 201/20110.019:STANDARD (22-TI-46,NP,,SPA) 201/20110.020:STANDARD (29-CU-63,NA,,SPA) 201/20110.021:STANDARD (28-NI-58,NP,,SPA) 201/20111.002:STANDARD (STANS) 11-NA-24 STANDARD SOURCE. 201/20111.003:STANDARD (13-AL-27,NA) 117.0 +- 0.8 MB AT 14.43 MEV WAS USED. 201/20114.001:STANDARD (ABSOL) TRANSMISSION EXPERIMENT. 201/20115.001:STANDARD (ABSOL) TRANSMISSION MEASUREMENT 201/20116.001:STANDARD (ABSOL) ABSOLUTE. 201/20117.001:STANDARD (ABSOL) ABSOLUTE. 201/20118.001:STANDARD (ABSOL) ABSOLUTE. 201/20119.001:STANDARD (ABSOL) ABSOLUTE. 201/20120.001:STANDARD (ABSOL) ABSOLUTE. 201/20121.001:STANDARD (ABSOL) ABSOLUTE. 201/20122.001:STANDARD (ABSOL) ABSOLUTE. 201/20123.001:STANDARD (ABSOL) ABSOLUTE. 201/20124.001:STANDARD (ABSOL ) ABSOLUTE 201/20125.001:STANDARD (ABSOL) ABSOLUTE. 201/20127.001:STANDARD .TERNARY TO BINARY FISSION RATIOS WERE NORMALIZED 201/20128.002:STANDARD (92-U-235,NF/ARE) INTEGRAL FROM 0.06239 TO 0.2060 EV 201/20128.003:STANDARD (92-U-235,NF/ARE) INTEGRAL FROM 0.06239 TO 0.2060 EV 201/20130.001:STANDARD .ABSOLUTE CALIBRATION OF THE PRODUCT DETECTOR 201/20132.001:STANDARD (94-PU-238,NF/ARE) NORMALIZED TO THE FISSION INTEGRAL 201/20133.001:STANDARD .ABSOLUTE CALIBRATION OF THE PRODUCT DETECTOR 201/20134.001:STANDARD (92-U-238,TOT) EVALUATED TOTAL CROSS-SECTION CURVE OF 201/20135.002:STANDARD .NO INFORMATION GIVEN. 201/20135.004:STANDARD .NO INFORMATION GIVEN. 201/20136.002:STANDARD (1-H-1,EL,DA) J.L.GAMMEL, FAST NEUTRON PHYSICS II, 201/20136.003:STANDARD (1-H-1,EL,DA) J.L.GAMMEL, FAST NEUTRON PHYSICS II, 201/20136.004:STANDARD (1-H-1,EL,DA) J.L.GAMMEL, FAST NEUTRON PHYSICS II, 201/20136.005:STANDARD (1-H-1,EL,DA) J.L.GAMMEL, FAST NEUTRON PHYSICS II, 201/20136.006:STANDARD (1-H-1,EL,DA) J.L.GAMMEL, FAST NEUTRON PHYSICS II, 201/20136.007:STANDARD (1-H-1,EL,DA) J.L.GAMMEL, FAST NEUTRON PHYSICS II, 201/20138.002:STANDARD .NO INFORMATION AVAILABLE. 201/20140.002:STANDARD (92-U-235,NF) PRELIMINARY VALUE AT 2200 M/SEC 201/20140.003:STANDARD (92-U-235,NF) PRELIMINARY VALUE AT 2200 M/SEC 201/20141.001:STANDARD (5-B-10,NA) = 3834+-5 BARN AT 2200 M/SEC EVALUATED FROM 201/20142.004:STANDARD (74-W-0,EL/ARE) SCATTERING AREA'S NORMALIZED TO THOSE 201/20142.005:STANDARD (74-W-0,EL/ARE) SCATTERING AREA'S NORMALIZED TO THOSE 201/20144.001:STANDARD (92-U-238,NG/PCS) THE 6.67 EV RESONANCE WAS USED 201/20145.002:STANDARD (82-PB-0,EL) = 11.28 +- 0.06 BARN AT 1.44 EV BY RAYBURN 201/20145.009:STANDARD (82-PB-0,EL) = 11.28 +- 0.06 BARN AT 1.44 EV BY RAYBURN 201/20148.002:STANDARD .ABSOLUTE, TRANSMISSION MEASUREMENT. 201/20148.003:STANDARD .ABSOLUTE, TRANSMISSION MEASUREMENT. 201/20148.004:STANDARD .ABSOLUTE, TRANSMISSION MEASUREMENT. 201/20148.005:STANDARD .ABSOLUTE, TRANSMISSION MEASUREMENT. 201/20150.002:STANDARD (1-H-1,EL,DA) 201/20150.003:STANDARD (1-H-1,EL,DA) 201/20150.004:STANDARD (1-H-1,EL,DA) 201/20150.005:STANDARD (1-H-1,EL,DA) 201/20150.006:STANDARD (1-H-1,EL,DA) 201/20150.007:STANDARD (1-H-1,EL,DA) 201/20150.008:STANDARD (1-H-1,EL,DA) 201/20150.009:STANDARD (1-H-1,EL,DA) 201/20150.010:STANDARD (1-H-1,EL,DA) 201/20150.011:STANDARD (1-H-1,EL,DA) 201/20150.012:STANDARD (1-H-1,EL,DA) 201/20150.013:STANDARD (1-H-1,EL,DA) 201/20150.014:STANDARD (1-H-1,EL,DA) 201/20150.015:STANDARD (1-H-1,EL,DA) 201/20150.016:STANDARD (1-H-1,EL,DA) 201/20150.017:STANDARD (1-H-1,EL,DA) 201/20150.018:STANDARD (1-H-1,EL,DA) 201/20150.019:STANDARD (1-H-1,EL,DA) 201/20150.020:STANDARD (1-H-1,EL,DA) 201/20150.021:STANDARD (1-H-1,EL,DA) 201/20150.022:STANDARD (1-H-1,EL,DA) 201/20152.001:STANDARD .ABSOLUTE. 201/20153.001:STANDARD .NORMALIZED TO A VALUE OF 4.58 FOR THE 841.57 KEV GAMMA 201/20154.001:STANDARD (42-MO-0,NG,SPC) INTENSITIES OF 6.92 MEV AND 0.775 MEV 201/20155.001:STANDARD .ABSOLUTE, TRANSMISSION EXPERIMENT. 201/20156.001:STANDARD (42-MO-97,NG,SPC) 6624.6 KEV LINE BY GROSHEV ET AL., 201/20157.001:STANDARD (6-C-12,EL,DA) LANGSDORF ET AL.,PHYS.REV.107(1957)1077. 201/20158.002:STANDARD (92-U-235,ALF) RECOMMENDED VALUES OF ALTER AND DUNFORD, 201/20158.003:STANDARD (94-PU-239,ALF) EVALUATION BY KONSHIN, BASED ON THE 201/20159.001:STANDARD .ABSOLUTE. 201/20160.001:STANDARD .ABSOLUTE MEASUREMENT. 201/20161.001:STANDARD .ABSOLUTE, TRANSMISSION MEASUREMENT. 201/20162.001:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, N-P DIFFERENTIAL CROSS 201/20163.001:STANDARD .ABSOLUTE, ASSOCIATED PARTICLE. 201/20164.001:STANDARD (6-C-12,ING,DA,PAR) THE DIFFERENTIAL CROSS SECTION FOR 201/20165.001:STANDARD (28-NI-0,NG,SPC) 201/20166.001:STANDARD (82-PB-0,EL) SCATTERING CROSS-SECTION OF LEAD, VALUE 201/20173.001:STANDARD .ABSOLUTE. 201/20176.002:STANDARD .ABSOLUTE, TRANSMISSION EXPERIMENT. 201/20176.003:STANDARD .ABSOLUTE, TRANSMISSION EXPERIMENT. 201/20178.001:STANDARD (13-AL-27,NA,,FIS) = 0.61 +- 0.03 MILLIBARN, 201/20178.002:STANDARD (13-AL-27,NA) 201/20178.006:STANDARD (26-FE-54,NP) 201/20179.002:STANDARD (16-S-32,NP,,FIS) = 63 MILLIBARN. 201/20179.003:STANDARD (16-S-32,NP,,FIS) = 63 MILLIBARN. 201/20179.004:STANDARD (26-FE-54,NP,,FIS) = 68.5 +- 3.8 MILLIBARN, 201/20179.005:STANDARD (16-S-32,NP,,FIS) = 63 MILLIBARN. 201/20179.006:STANDARD (16-S-32,NP,,FIS) = 63 MILLIBARN. 201/20180.001:STANDARD (82-PB-0,EL) SCATTERING CROSS-SECTION OF LEAD, VALUE 201/20181.001:STANDARD .NOT GIVEN. 201/20182.001:STANDARD (79-AU-197,NG) = 98.8 +- 0.36 BARN, 2200 M/SEC. VALUE. 201/20183.001:STANDARD (79-AU-197,NG) = 98.8 +- 0.36 BARN, 2200 M/SEC. VALUE. 201/20184.001:STANDARD (79-AU-197,NG) VALUE NOT GIVEN. 201/20185.001:STANDARD (79-AU-197,NG) = 98.8 +- 0.3 BARN, 2200 M/SEC. VALUE 201/20186.001:STANDARD (79-AU-197,NG) = 98.7 +- 0.2 BARN, 2200 M/SEC. VALUE. 201/20187.002:STANDARD (79-AU-197,NG) SIGMA(THERMAL) = 98.8 BARN. 201/20187.003:STANDARD (79-AU-197,NG,RI) RESONANCE INTEGRAL = 1558 BARN. 201/20187.004:STANDARD (79-AU-197,NG) SIGMA(THERMAL) = 98.8 BARN. 201/20187.005:STANDARD (79-AU-197,NG,RI) RESONANCE INTEGRAL = 1558 BARN. 201/20187.006:STANDARD (79-AU-197,NG) SIGMA(THERMAL) = 98.8 BARN. 201/20187.007:STANDARD (79-AU-197,NG) SIGMA(THERMAL) = 98.8 BARN. 201/20187.008:STANDARD (79-AU-197,NG) SIGMA(THERMAL) = 98.8 BARN. 201/20187.009:STANDARD (79-AU-197,NG,RI) RESONANCE INTEGRAL = 1558 BARN. 201/20187.010:STANDARD (79-AU-197,NG) SIGMA(THERMAL) = 98.8 BARN. 201/20187.011:STANDARD (79-AU-197,NG,RI) RESONANCE INTEGRAL = 1558 BARN. 201/20188.002:STANDARD (79-AU-197,NG,RI) RESONANCE INTEGRAL = 1550 BARN. 201/20188.003:STANDARD (79-AU-197,NG,RI) RESONANCE INTEGRAL = 1550 BARN. 201/20188.004:STANDARD (79-AU-197,NG,RI) RESONANCE INTEGRAL = 1550 BARN. 201/20188.005:STANDARD (79-AU-197,NG,RI) RESONANCE INTEGRAL = 1550 BARN. 201/20188.006:STANDARD (79-AU-197,NG,RI) RESONANCE INTEGRAL = 1550 BARN. 201/20188.007:STANDARD (79-AU-197,NG,RI) RESONANCE INTEGRAL = 1550 BARN. 201/20188.008:STANDARD (79-AU-197,NG,RI) RESONANCE INTEGRAL = 1550 BARN. 201/20188.009:STANDARD (79-AU-197,NG,RI) RESONANCE INTEGRAL = 1550 BARN. 201/20188.010:STANDARD (79-AU-197,NG,RI) RESONANCE INTEGRAL = 1550 BARN. 201/20188.011:STANDARD (79-AU-197,NG,RI) RESONANCE INTEGRAL = 1550 BARN. 201/20188.012:STANDARD (79-AU-197,NG,RI) RESONANCE INTEGRAL = 1550 BARN. 201/20188.013:STANDARD (79-AU-197,NG,RI) RESONANCE INTEGRAL = 1550 BARN. 201/20188.014:STANDARD (79-AU-197,NG,RI) RESONANCE INTEGRAL = 1550 BARN. 201/20188.015:STANDARD (79-AU-197,NG,RI) RESONANCE INTEGRAL = 1550 BARN. 201/20188.016:STANDARD (79-AU-197,NG,RI) RESONANCE INTEGRAL = 1550 BARN. 201/20188.017:STANDARD (79-AU-197,NG,RI) RESONANCE INTEGRAL = 1550 BARN. 201/20188.018:STANDARD (79-AU-197,NG,RI) RESONANCE INTEGRAL = 1550 BARN. 201/20188.019:STANDARD (79-AU-197,NG,RI) RESONANCE INTEGRAL = 1550 BARN. 201/20188.020:STANDARD (79-AU-197,NG) SIGMA(THERMAL) = 98.8 BARN. 201/20188.021:STANDARD (79-AU-197,NG,RI) RESONANCE INTEGRAL = 1550 BARN. 201/20188.022:STANDARD (79-AU-197,NG,RI) RESONANCE INTEGRAL = 1550 BARN. 201/20188.023:STANDARD (79-AU-197,NG,RI) RESONANCE INTEGRAL = 1550 BARN. 201/20188.024:STANDARD (79-AU-197,NG,RI) RESONANCE INTEGRAL = 1550 BARN. 201/20188.025:STANDARD (79-AU-197,NG,RI) RESONANCE INTEGRAL = 1550 BARN. 201/20188.026:STANDARD (79-AU-197,NG,RI) RESONANCE INTEGRAL = 1550 BARN. 201/20188.027:STANDARD (79-AU-197,NG,RI) RESONANCE INTEGRAL = 1550 BARN. 201/20188.028:STANDARD (79-AU-197,NG,RI) RESONANCE INTEGRAL = 1550 BARN. 201/20188.029:STANDARD (79-AU-197,NG,RI) RESONANCE INTEGRAL = 1550 BARN. 201/20188.030:STANDARD (79-AU-197,NG,RI) RESONANCE INTEGRAL = 1550 BARN. 201/20188.031:STANDARD (79-AU-197,NG,RI) RESONANCE INTEGRAL = 1550 BARN. 201/20189.001:STANDARD (79-AU-197,NG) = 97.7 +- 0.5 BARNS FOR 2200 METER/SEC 201/20191.001:STANDARD (79-AU-197,NG) = 98.8 +- 0.3 BARN, BNL-325, 2-ND ED. 201/20194.003:STANDARD (79-AU-197,NG) FROM VAUGHN, GRENCH, (LOCKHEED AIRCRAFT, 201/20194.005:STANDARD (79-AU-197,NG) FROM VAUGHN, GRENCH, (LOCKHEED AIRCRAFT, 201/20194.007:STANDARD (79-AU-197,NG) FROM VAUGHN, GRENCH, (LOCKHEED AIRCRAFT, 201/20198.001:ERR-ANALYS (ERR-T) QUADRATIC COMBINATION OF ALL ERRORS (STANDARD 202/20200.001:STANDARD .ABSOLUTE, SEE METHOD. 202/20201.001:STANDARD (82-PB-0,EL) SCATTERING CROSS-SECTION OF LEAD, 202/20205.001:STANDARD (49-IN-115,NG) AND 202/20205.002:STANDARD (13-AL-27,NG) AT THERMAL ENERGY. 202/20205.003:STANDARD (22-TI-50,NG) AT THERMAL ENERGY. 202/20205.004:STANDARD (29-CU-63,NG) AT THERMAL ENERGY. 202/20205.005:STANDARD (29-CU-65,NG) AT THERMAL ENERGY. 202/20205.006:STANDARD (42-MO-98,NG) AT THERMAL ENERGY. 202/20205.007:STANDARD (42-MO-100,NG) AT THERMAL ENERGY. 202/20205.008:STANDARD (47-AG-107,NG) AT THERMAL ENERGY. 202/20208.001:STANDARD (82-PB-0,EL) SCATTERING CROSS-SECTION OF LEAD, VALUE 202/20211.001:STANDARD (16-S-32,NG,SPC) THE GAMMA-RAY INTENSITIES ARE 202/20212.001:STANDARD .THE INTENSITIES ARE NORMALIZED SUCH THAT 202/20213.001:STANDARD (82-PB-0,EL) = 11.28 +- 0.06 BARN, NUCL. PHYS., 202/20214.001:STANDARD .THE INTENSITIES IN THE THREE MG-ISOTOPES 202/20215.001:STANDARD .THE INTENSITIES ARE NORMALIZED SUCH THAT THE 202/20216.001:STANDARD (28-NI-0,NG,SPC) FROM L.V.GROSHEV ET AL.,ATLAS, 202/20217.001:STANDARD (14-SI-28,NG,SPC) 1778.7 KEV LINE WITH THE INTENSITY 202/20218.001:STANDARD (14-SI-28,NG,SPC) 202/20219.002:STANDARD (12-MG-26,NG) = 26.7 +- 10 MB AT 0.0253EV, BY SPILLING 202/20219.003:STANDARD (12-MG-26,NG) = 26.7 +- 10 MB AT 0.0253EV, BY SPILLING 202/20219.004:STANDARD .THE JOINT INTENSITY OF TWO GAMMA-LINES 202/20222.002:STANDARD .INTENSITIES CALCULATED BY MEANS OF 202/20222.003:STANDARD .INTENSITY IN ARBITRARY UNITS. 202/20223.001:STANDARD (1-H-1,EL) 202/20224.002:STANDARD (28-NI-0,NG,SPC) THE INTENSITY OF THE 7814 KEV LINE 202/20224.003:STANDARD .BASED ON THE VALUE 4.0 OF THE 1080.1 KEV GAMMA LINE 202/20224.004:STANDARD (72-HF-178,NG,SPC) NORMALIZED TO THE VALUE 8.5 FOR THE 202/20224.005:STANDARD .BASED ON THE SUM OF THE 214 AND 1004 KEV LINES 202/20225.001:STANDARD (70-YB-170,NG,SPC) INTENSITIES WERE NORMALIZED TO THE 202/20226.001:STANDARD .THE SUM OF THE INTENSITIES OF THE PRIMARY GAMMA-RAYS 202/20227.001:STANDARD (7-N-14,NG,SPC) 202/20229.001:STANDARD (92-U-0,NF)MACROSCOPIC CROSS-SECTION OF THE FISSION 202/20229.002:STANDARD .STANDARD SOURCES USED FOR CALIBRATING THE NA-I CRYSTAL 202/20229.003:STANDARD .ABSOLUTE. 202/20229.004:STANDARD (49-IN-115,NG,,MS) ACTIVATION RATES WERE DEDUCED FROM 202/20229.005:STANDARD .STANDARD SOURCES USED FOR CALIBRATING THE NA-I CRYSTAL 202/20229.006:STANDARD .STANDARD SOURCES USED FOR CALIBRATING THE NA-I CRYSTAL 202/20231.001:STANDARD (27-CO-59,NG) = 38 BARN (THERMAL), T(1/2) = 5.25 YR, 202/20231.002:STANDARD (79-AU-197,NG) 2200 M/SEC VALUE = 98.8 B., 202/20231.003:STANDARD (28-NI-58,NP) = 107 MILLI-BARN FOR FAST NEUTRON FLUX- 202/20231.004:STANDARD (79-AU-197,NG) 2200 M/SEC VALUE = 98.8 B., 202/20231.005:STANDARD (28-NI-58,NP) = 107 MILLI-BARN FOR FAST NEUTRON FLUX- 202/20231.006:STANDARD (28-NI-58,NP) = 107 MILLI-BARN FOR FAST NEUTRON FLUX- 202/20232.001:STANDARD .ABSOLUTE, TRANSMISSION. 202/20234.001:STANDARD .THE EXPERIMENTAL VALUES WERE NORMALIZED 202/20235.001:STANDARD (60-ND-0,NG,SPC) 202/20236.001:STANDARD (62-SM-0,NG,SPC) 202/20237.001:STANDARD (49-IN-115,NG,,MS) CROSS-SECTION LEAD NG TO BOTH 202/20238.001:STANDARD (14-SI-28,NP) = 0.22 +- 0.05 BARN AT 14 MEV, 202/20239.001:STANDARD .ABSOLUTE, TRANSMISSION. 202/20241.001:STANDARD .GAMMA LINE 1293.64 KEV OF B10(N,A)LI7. SEE TEXT. 202/20243.001:STANDARD (72-HF-180,NG,SPC,SPA) 202/20243.002:STANDARD .NORMALIZED TO A VALUE 20.7 FOR THE 5695.9 202/20243.003:STANDARD .NORMALIZED TO A VALUE 1.26 FOR THE 1071.2 202/20244.001:STANDARD (28-NI-0,NG,SPC) 202/20244.002:STANDARD .NORMALIZED TO THE VALUE 4.0 FOR THE 5540 KEV LINE 202/20244.003:STANDARD .NORMALIZED TO THE VALUE 4.0 FOR THE 5540 KEV LINE 202/20244.004:STANDARD .NORMALIZED TO THE VALUE 0.50 FOR THE 5363 KEV LINE 202/20245.001:STANDARD (6-C-12,ING) MORGAN ET AL.,ANNUAL PROG.REP. FOR PERIOD 202/20246.001:STANDARD (28-NI-0,NG,SPC) 202/20247.002:STANDARD .THE ABSOLUTE INTENSITY VALUES IN 202/20247.003:STANDARD .THE ABSOLUTE INTENSITY VALUES IN 202/20248.001:STANDARD (73-TA-0,NG) GIBBONS ET AL.,PHYS.REV.122(1961)182. 202/20249.002:STANDARD .PRIMARY NEUTRON FLUX WAS MEASURED WITH A 202/20250.001:STANDARD (16-S-32,NP,,SPA) = 60 MILLIBARN, AVERAGE FAST FLUX 202/20251.001:STANDARD (15-P-31,NG,,MXW) = 0.19 BARN, THERMAL FLUX. 202/20252.002:STANDARD (29-CU-63,NG) = 4.3 +- 0.2 BARN. 202/20252.004:STANDARD (29-CU-63,NG) = 4.3 +- 0.2 BARN. 202/20253.001:STANDARD (16-S-32,NP,,FIS) = 60 MILLIBARN, AVERAGE FAST FLUX 202/20254.001:STANDARD (79-AU-197,NG) = 98.8 +- 0.3 BARNS, 2200 M/SEC. VALUE. 202/20254.001: GOLD CROSS-SECTIONS USED AS PRIMARY STANDARD 202/20255.001:STANDARD (16-S-32,NP,,FIS) = 60 MILLIBARN, FAST NEUTRON FLUX. 202/20256.001:STANDARD (16-S-32,NP,,FIS) = 65 MILLIBARN, FAST NEUTRON FLUX. 202/20257.001:STANDARD (28-NI-58,NP,,SPA) = 105 MB, BOLDEMAN,J.NUCL.ENERGY A/B 202/20258.001:STANDARD (13-AL-27,NA) NO FURTHER INFORMATION. 202/20259.002:STANDARD (79-AU-197,NG) = 98.80 BARN FOR 0.0253 EV. 202/20259.003:STANDARD (79-AU-197,NG,RI,RV) = 45. BARN, RES.INTEGRAL FOR 1/V. 202/20259.004:STANDARD (79-AU-197,NG,RI,RV) = 45. BARN, RES.INTEGRAL FOR 1/V. 202/20263.001:STANDARD (79-AU-197,NG) VALUE NOT GIVEN. 202/20265.001:STANDARD (1-H-1,EL) 202/20266.001:STANDARD (1-H-1,EL) 202/20268.001:STANDARD (1-H-1,EL) 202/20270.001:STANDARD (1-H-1,EL) 202/20271.001:STANDARD (1-H-1,EL) 202/20273.001:STANDARD (1-H-1,EL) 202/20276.001:STANDARD .ABSOLUTE. 202/20277.001:STANDARD .RELATIVE GAMMA-RAY INTENSITIES. 202/20278.002:STANDARD (29-CU-63,N2N) NUCL. PHYS. 29(1962)309. 202/20278.003:STANDARD (9-F-19,N2N) THIS REFERENCE. 202/20279.001:STANDARD .ABSOLUTE, NEUTRON FLUX WAS DETERMINED 202/20281.001:STANDARD .ASSOCIATED ALPHA PARTICLES, T(D,N)ALPHA. 202/20282.001:STANDARD .ALPHA-PARTICLE COUNTING, T(D,N)ALPHA. 202/20283.001:STANDARD .ALPHA-PARTICLE COUNTING, T(D,N)ALPHA. 202/20284.001:STANDARD (15-P-31,NP) 202/20285.001:STANDARD .COUNTING OF ALPHA PARTICLES OF T(D,N)ALPHA. 202/20287.001:STANDARD .ABOUT 5*10E+7 NEUTRONS/SEC. MONITORED 202/20290.001:STANDARD .THE NEUTRON FLUX WAS CALCULATED FROM THE 202/20294.003:STANDARD (29-CU-63,N2N) 202/20297.001:STANDARD (29-CU-0,GEM) GAMMA-EMISSION CROSS-SECTION AT A NEUTRON 202/20298.001:STANDARD (29-CU-0,GEM) GAMMA-EMISSION CROSS-SECTION AT A NEUTRON 202/20299.001:STANDARD .ASSOCIATED ALPHA PARTICLE COUNTING, 203/20300.002:STANDARD (49-IN-115,INL) KOBAYASHI ET AL.,J.NUCL.ENERGY,22(1973) 203/20300.003:STANDARD (49-IN-115,INL) AVERAGE CROSS-SECTION OF 175 +- 6 MB, 203/20300.004:STANDARD (93-NP-237,NF,YLD,PRE) 5.6 PERC. MEAN VALUE OF WORKS BY 203/20301.001:STANDARD (24-CR-50,NG) = 15.9 B AT THERMAL. T(1/2) = 27.8 DAY 203/20302.001:STANDARD .TRANSMISSION MEASUREMENT. 203/20303.001:STANDARD .ASSOCIATED ALPHA PARTICLE COUNTING, 203/20304.001:STANDARD (1-H-1,EL) 203/20305.001:STANDARD .ABSOLUTE. ASSOCIATED ALPHA PARTICLE COUNTING, 203/20306.002:STANDARD .ABSOLUTE EFFICIENCY OF GAMMA DETECTION WAS 203/20306.003:STANDARD .ABSOLUTE EFFICIENCY OF GAMMA DETECTION WAS 203/20306.004:STANDARD .ABSOLUTE EFFICIENCY OF GAMMA DETECTION WAS 203/20306.005:STANDARD .ABSOLUTE EFFICIENCY OF GAMMA DETECTION WAS 203/20306.006:STANDARD .ABSOLUTE EFFICIENCY OF GAMMA DETECTION WAS 203/20306.007:STANDARD .ABSOLUTE EFFICIENCY OF GAMMA DETECTION WAS 203/20306.009:STANDARD .ABSOLUTE EFFICIENCY OF GAMMA DETECTION WAS 203/20306.010:STANDARD .ABSOLUTE EFFICIENCY OF GAMMA DETECTION WAS 203/20306.011:STANDARD .ABSOLUTE EFFICIENCY OF GAMMA DETECTION WAS 203/20306.012:STANDARD .ABSOLUTE EFFICIENCY OF GAMMA DETECTION WAS 203/20306.013:STANDARD .ABSOLUTE EFFICIENCY OF GAMMA DETECTION WAS 203/20306.014:STANDARD .ABSOLUTE EFFICIENCY OF GAMMA DETECTION WAS 203/20306.015:STANDARD .ABSOLUTE EFFICIENCY OF GAMMA DETECTION WAS 203/20306.016:STANDARD .ABSOLUTE EFFICIENCY OF GAMMA DETECTION WAS 203/20306.017:STANDARD .ABSOLUTE EFFICIENCY OF GAMMA DETECTION WAS 203/20307.002:STANDARD (1-H-1,EL) BOWEN ET AL.,THE NUCLEON-NUCLEON INTERACTION 203/20308.001:STANDARD (1-H-1,EL) 203/20309.001:STANDARD (79-AU-197,NG,RI) RESONANCE CAPTURE INTEGRAL OF GOLD. 203/20310.001:STANDARD (79-AU-197,NG,RI) RESONANCE CAPTURE INTEGRAL OF GOLD. 203/20314.001:STANDARD (79-AU-197,NG) ITS RESONANCE INTEGRAL ASSUMED TO BE 203/20315.001:STANDARD (13-AL-27,NP) = 82 +- 10 MILLIBARN, J.KANTELE, ET AL. 203/20319.001:STANDARD .THE ASSUMPTION WAS MADE THAT THE IONIZATION 203/20320.001:STANDARD .ABSOLUTE, TRANSMISSION. 203/20321.001:STANDARD .ABSOLUTE. ALPHA-PARTICLE COUNTING, T(D,N)ALPHA. 203/20322.001:STANDARD (13-AL-27,NA) = 125+-5 MB(13.6 MEV), 120+-5 MB(14.1MEV) 203/20326.001:STANDARD (1-H-1,EL) 203/20327.001:STANDARD .ABSOLUTE MEASUREMENT. 203/20328.001:STANDARD .ABSOLUTE. 203/20329.001:STANDARD .ASSOCIATED ALPHA PARTICLE COUNTING, 203/20330.001:STANDARD .ASSOCIATED ALPHA PARTICLE COUNTING, 203/20332.001:STANDARD .ABSOLUTE, 203/20333.001:STANDARD (1-H-1,EL) 203/20334.001:STANDARD .ASSOCIATED ALPHA PARTICLE COUNTING, 203/20336.001:STANDARD .ABSOLUTE. ASSOCIATED ALPHA-PARTICLE COUNTING, 203/20337.001:STANDARD (1-H-1,EL) 203/20339.001:STANDARD .ABSOLUTE. 203/20340.001:STANDARD (1-H-1,EL) NO FURTHER DETAIL. 203/20344.001:STANDARD (1-H-1,EL,DA) BY SAME AUTHORS,J.PHYS.SOC.JAP.,28('70)11 203/20346.001:STANDARD (1-H-1,EL) POLYTHENE SCATTERER, 3.0 CM LONG, 0.95 CM 203/20350.001:STANDARD (33-AS-75,N2N) = 970 +- 80 MB. 203/20351.001:STANDARD (79-AU-197,NG) 203/20352.001:STANDARD (5-B-10,NA) SIGMA = 611 B SQRT(EV)/SQRT(E), 203/20353.001:STANDARD .ABSOLUTE 203/20354.001:STANDARD (1-H-1,EL) 203/20356.001: (C,72VIENNA,213,7211) IAEA PANEL ON NEUTRON STANDARD 203/20357.002:STANDARD (5-B-10,NA) 203/20358.001:STANDARD (79-AU-197,NG) CROSS SECTION SHAPE SPECIALLY DETERMINED 203/20358.035:STANDARD (3-LI-6,NT) 3 MM THICK LI-6 GLASS DETECTOR WITH REL. 203/20359.001:STANDARD .NORMALIZED TO THE H2(D,N)HE3 DIFFERENTIAL CROSS- 203/20360.002:STANDARD (1-H-1,EL,DA) CROSS-SECTIONS WERE NORMALIZED TO THE 203/20360.003:STANDARD (1-H-1,EL,DA) CROSS-SECTIONS WERE NORMALIZED TO THE 203/20360.004:STANDARD (1-H-1,NP) CROSS-SECTIONS WERE GOT BY NORMALIZING 203/20360.005:STANDARD (1-H-1,NP) CROSS-SECTIONS WERE GOT BY NORMALIZING 203/20361.002:STANDARD (44-RU-104,NG,SPC) GAMMA INTENSITIES HAVE BEEN 203/20362.001:STANDARD (79-AU-197,NG) 203/20363.002:STANDARD .THE CROSS-SECTION RATIOS WERE OBTAINED BY 203/20363.003:STANDARD .THE CROSS-SECTION RATIOS WERE OBTAINED BY 203/20365.002:STANDARD (29-CU-63,N2N) 575 +- 30 MILLI-B, BY LISKIEN, PAULSEN, 203/20368.001:STANDARD .ABSOLUTE. 203/20370.001:STANDARD (79-AU-197,NG) CF. KOMPE, NUCL.PHYS.A133(1969)513 203/20371.001:STANDARD .STANDARD SOURCE, SEE DETECTOR. 203/20372.002:STANDARD (92-U-235,NG,SPC) 6395 KEV INTENSITY OF 3.2 +- 0.5 203/20373.002:STANDARD (94-PU-239,NF,SPC,PR) FISSION GAMMA RAY AT 4453 KEV, 203/20374.001:STANDARD (79-AU-197,NG) 203/20375.001:STANDARD .ABSOLUTE. 203/20376.001:STANDARD (1-H-1,EL,DA) 203/20378.001:STANDARD (1-H-1,EL) FROM GAMMEL, FAST NEUTRON PHYSICS II,2209 203/20380.001:STANDARD (29-CU-65,N2N) ASSUMED X-SECTION AT 19.5 MEV= 1.1 BARN 203/20381.001:STANDARD TERNARY TO BINARY FISSIO RATIOS WERE NORMALIZED TO THE 203/20384.002:STANDARD .TERNARY TO BINARY FISSION RATIOS ARE NORMALIZED TO THE 203/20384.003:STANDARD .TERNARY TO BINARY FISSION RATIOS ARE NORMALIZED TO THE 203/20387.001:STANDARD (1-H-1,EL) 203/20389.001:STANDARD .RATIO. 203/20390.001:STANDARD (1-H-1,EL) TAKEN FROM GAMMEL, FAST NEUTRON PHYSICS II 203/20391.001:STANDARD (1-H-1,EL,DA) 203/20393.002:STANDARD .ABSOLUTE MEASUREMENT. 203/20393.003:STANDARD (27-CO-59,N2N) 203/20393.004:STANDARD .ABSOLUTE MEASUREMENT. 203/20393.005:STANDARD .ABSOLUTE MEASUREMENT. 203/20393.006:STANDARD .ABSOLUTE MEASUREMENT. 203/20393.007:STANDARD .ABSOLUTE MEASUREMENT. 203/20394.001:STANDARD (1-H-1,EL) GAMMEL,FAST NEUTRON PHYSICS, II, MARION AND 203/20395.001:STANDARD (1-H-1,EL,DA) 203/20398.001:STANDARD .ABSOLUTE MEASUREMENT. 204/20400.002:STANDARD (3-LI-6,NT) IN THE ENERGY RANGE 300 TO 500 KEV, PRESENT 204/20400.003:STANDARD (3-LI-6,NT) IN THE ENERGY RANGE 300 TO 500 KEV, PRESENT 204/20400.004:STANDARD (3-LI-6,NT) NORMALISED TO THE SAME EXPERIMENT BUT 204/20401.001:STANDARD .RELATIVE EFFICIENCY OF THE DETECTOR WAS MEASURED IN 204/20402.001:STANDARD (1-H-1,EL,DA) HORSLEY, NUCL.DATA 2(1966)243, 204/20403.001:STANDARD (1-H-1,EL,DA) HORSLEY, NUCL.DATA 2(1966)243, 204/20408.002:STANDARD .N-FLUX ARE DETERMINED BY 2 DIFFERENT METHOD 204/20408.003:STANDARD .N-FLUX ARE DETERMINED BY 2 DIFFERENT METHOD. 204/20408.004:STANDARD .N-FLUX ARE DETERMINED BY 2 DIFFERENT METHOD. 204/20408.005:STANDARD .N-FLUX ARE DETERMINED BY 2 DIFFERENT METHOD. 204/20408.006:STANDARD .N-FLUX ARE DETERMINED BY 2 DIFFERENT METHOD. 204/20408.007:STANDARD .N-FLUX ARE DETERMINED BY 2 DIFFERENT METHOD. 204/20408.008:STANDARD .N-FLUX ARE DETERMINED BY 2 DIFFERENT METHOD. 204/20408.009:STANDARD .N-FLUX ARE DETERMINED BY 2 DIFFERENT METHOD. 204/20408.010:STANDARD .N-FLUX ARE DETERMINED BY 2 DIFFERENT METHOD. 204/20408.011:STANDARD .N-FLUX ARE DETERMINED BY 2 DIFFERENT METHOD. 204/20408.012:STANDARD .N-FLUX ARE DETERMINED BY 2 DIFFERENT METHOD. 204/20408.013:STANDARD .N-FLUX ARE DETERMINED BY 2 DIFFERENT METHOD. 204/20408.014:STANDARD .N-FLUX ARE DETERMINED BY 2 DIFFERENT METHOD. 204/20408.015:STANDARD .N-FLUX ARE DETERMINED BY 2 DIFFERENT METHOD. 204/20408.029:STANDARD .N-FLUX ARE DETERMINED BY 2 DIFFERENT METHOD. 204/20408.030:STANDARD .N-FLUX ARE DETERMINED BY 2 DIFFERENT METHOD. 204/20410.001:STANDARD (3-LI-6,NT) DATA ARE NORMALISED TO A CROSS-SECTION 204/20417.001:STANDARD .TRANSMISSION EXPERIMENT. 204/20418.001:STANDARD .TRANSMISSION MEASUREMENT. 204/20420.001:STANDARD .TRANSMISSION MEASUREMENT. 204/20421.001:STANDARD (13-AL-27,NP) = 78 +- 5 MILLIB. 204/20423.001:STANDARD (93-NP-238,NF,,AV) MEASURED COUNTS N(NP-237-FISSION), 204/20427.001:STANDARD (92-U-235,NU,,PR/AV) TO VALUE RECOMMENDED BY F.MANERO 204/20428.002:STANDARD (94-PU-239,NF,,AV) = 1.6775 B, AVERAGE VALUE 10 TO 204/20428.003:STANDARD (94-PU-239,NF,,AV) = 1.6775 B, AVERAGE VALUE 10 TO 204/20430.001:STANDARD .A RENORMALIZATION FACTOR APPLIED SUCH THAT EXPERIMEN- 204/20435.001:STANDARD .ABSOLUTE, TRANSMISSION MEASUREMENT. 204/20436.001:STANDARD COMPARING TOTAL ACTIVATIONS OF NB-93(N,N')(METAST.) 204/20438.001: FOR VARIOUS MEASUREMENTS. A STANDARD 204/20438.002:STANDARD (92-U-235,NF)THERMAL = 580 B. 204/20439.001:STANDARD (11-NA-23,NG) = 0.534 B AS THERMAL VALUE, BNL-325, 204/20440.001:STANDARD GAMMA INTENSITY OF THE 477 KEV LINE OF LI-7 204/20441.002:STANDARD (7-N-0,NG,SPC) FROM ASSCHE, NEUTRON CAPTURE GAMMA-RAY 204/20442.001:STANDARD NO INFORMATION AVAILABLE 204/20443.002:STANDARD (3-LI-7,NG,SPC) INTENSITY OF 477 KEV LINE. 204/20444.001:STANDARD GAMMA INTENSITY OF THE 477 KEV LINE OF LI-7 204/20445.001:STANDARD .TRANSMISSION MEASUREMENT. 204/20446.001:STANDARD (92-U-233,NF,RI) = 168.31 BARN, VALUE OBTAINED BY 204/20447.001:STANDARD (5-B-10,NA) FOR NEUTRON FLUX DETERMINATION 204/20448.001:STANDARD (92-U-235,NF) THE FISSION CROSS-SECTION MEASURED IN 204/20449.001:STANDARD (27-CO-59,NG) = 37.32 +- 0.11 B AT 2200 M/SEC, CABELL, 204/20450.002:STANDARD .ABSOLUTE, TRANSMISSION EXPERIMENT. 204/20452.001:ERR-ANALYS THE CROSS-SECTION ERRORS ARE ONE STANDARD 204/20452.002:STANDARD ARBITRARY UNITS. 204/20452.003:STANDARD ARBITRARY UNITS. 204/20452.004:STANDARD ARBITRARY UNITS. 204/20452.005:STANDARD ARBITRARY UNITS. 204/20452.006:STANDARD ARBITRARY UNITS. 204/20452.007:STANDARD ARBITRARY UNITS. 204/20454.001:STANDARD (1-H-1,EL) HORSLEY, NUCL.DATA,A,2(1966)243. 204/20455.001:ERR-ANALYS THE ERRORS ON THE CROSS SECTIONS ARE ONE STANDARD 204/20455.002:STANDARD (23-V-51,INL,,PAR) = 200 +- 20 MB AT E(N) = 2.35 MEV 204/20455.003:STANDARD (23-V-51,INL,,PAR) = 200 +- 20 MB AT E(N) = 2.35 MEV 204/20455.004:STANDARD (39-Y-89,INL,,PAR) = 219 +- 9 MB AT E(N) = 2.35MEV, TO 204/20455.005:STANDARD (39-Y-89,INL,,PAR) = 219 +- 9 MB AT E(N) = 2.35MEV, TO 204/20456.001:STANDARD (1-H-1,EL,DA) HORSLEY, NUCL.DATA 2(1966)243, 204/20457.002:STANDARD (27-CO-59,NG) = 37.4 +- 0.3 B FOR THERMAL NEUTRONS. 204/20458.001:STANDARD (27-CO-59,NG) = 37.37 +- 0.11 B, BY SILK ET AL., 204/20459.001:STANDARD (92-U-236,NG,,MXW) = 6.4+-1.0 B, BNL-325,2-ND ED.(1965) 204/20461.001:STANDARD (92-U-235,ETA) = 1.64 ON THE PEAK OF THE 204/20462.001:STANDARD .LOW ENERGY EXPERIMENT NORMALIZED TO A VALUE OF 0.2450 204/20463.002:STANDARD (6-C-0,SCT) BY UTTLEY, DIMENT, AERE-PR/NP-13,(1968)P4. 204/20464.002:STANDARD .ABSOLUTE, TRANSMISSION EXPERIMENT. 204/20465.001:STANDARD (5-B-10,NA) SOWERBY ET AL.,J.NUCL.ENERGY,24(1970)323. 204/20466.001:STANDARD THE GAMMA-RAY INTENSITIES ARE RELATIVE TO THE 846.5 204/20467.001:STANDARD .TRANSMISSION EXPERIMENT. 204/20468.001:STANDARD (1-H-1,EL,DA) AT 0 DEG, DIRECT TIME OF FLIGHT AND 204/20469.001:STANDARD ABSOLUTE, TRANSMISSION. 204/20470.001:STANDARD .ABSOLUTE MEASUREMENT. 204/20472.001:STANDARD (90-TH-230,NF) = 0.37 B AT 1.4 MEV BY EVANS, JONES, 204/20474.001:STANDARD (1-H-1,EL,DA) BY HOPKINS-BREIT,NUCLEAR DATA,A9(1971)137 204/20476.002:STANDARD .DERIVED FROM ALPHA AND FISSION CROSS-SECTION 204/20476.003:STANDARD (5-B-10,NA) SOWERBY ET AL, AERE-R 6316 (1970) 204/20476.004:STANDARD (5-B-10,NA) SOWERBY ET AL. AERE-R-6316 (1970). 204/20476.005:STANDARD (94-PU-239,ALF) DATA NORMALIZED TO RESOLVED 204/20476.006:STANDARD .DERIVED FROM ALPHA AND FISSION CROSS-SECTION 204/20478.001:STANDARD (1-H-1,EL) 204/20481.002:STANDARD NOT MENTIONED IN THE PUBLICATIONS,THOUGH THE 204/20482.002:STANDARD ABSOLUTE, TRANSMISSION EXPERIMENT. 204/20482.003:STANDARD ABSOLUTE, TRANSMISSION EXPERIMENT. 204/20482.004:STANDARD ABSOLUTE,TRANSMISSION EXPERIMENT. 204/20482.007:STANDARD ABSOLUTE, TRANSMISSION EXPERIMENT 204/20483.001:STANDARD (92-U-235,NF,RI) = 2103 B*EV, VALUE OBTAINED BY 204/20484.001:STANDARD (94-PU-241,NF) = 2367.5 (B*EV) INTEGRATED OVER 204/20485.001:STANDARD THE NEUTRON FLUX WAS MEASURED BY A TELESCOPE COUNTER 204/20487.001:STANDARD .TRANSMISSION MEASUREMENT. 204/20488.002:STANDARD BELOW 7 MEV THE RATIO WAS NORMALIZED TO THE DAVEY 204/20488.003:STANDARD (98-CF-252,SF/NU,,PR) = 3.732 (AXTON E.J., PANEL ON 204/20488.004:STANDARD (98-CF-252,SF/NU,,PR) = 3.732 (AXTON E.J.,PANEL ON 204/20491.002:STANDARD (1-H-1,EL) 204/20491.004:STANDARD (14-SI-28,EL,DA)=45 MB/SR AT 60 DEG, THE VALUE FROM 204/20492.001:STANDARD (1-H-1,EL) NO FURTHER INFORMATION. 204/20493.001:STANDARD ABSOLUTE MEASUREMENT. 204/20494.001:STANDARD (6-C-12,SCT) SPECTROMETER EFFICIENCY WAS DETERMINED BY 204/20495.001:STANDARD ABSOLUTE MEASUREMENT. 204/20496.001:STANDARD ABSOLUTE MEASUREMENT. 204/20497.001:STANDARD ABSOLUTE MEASUREMENT. 204/20498.001:STANDARD ABSOLUTE MEASUREMENT. THE NEUTRON FLUX DISTRIBUTION 205/20500.001:STANDARD ABSOLUTE,TRANSMISSION EXPERIMENT. 205/20501.001:STANDARD (92-U-235,NF/ARE) TWO IMPURITY RESONANCES AT 8.8 AND 205/20502.002:STANDARD (6-C-12,TOT) NORMALIZED TO TOTAL CROSS-SECTION BY SAME 205/20502.003:STANDARD (6-C-12,TOT) NORMALIZED TO TOTAL X-SECT. BY SAME 205/20502.004:STANDARD ABSOLUTE, TRANSMISSION EXPERIMENT. 205/20502.005:STANDARD (6-C-12,TOT) NORMALIZED TO TOTAL X-SECT. BY SAME 205/20505.001:STANDARD ABSOLUTE, TRANSMISSION EXPERIMENT. 205/20508.001:STANDARD ABSOLUTE MEASUREMENT. 205/20509.001:STANDARD (13-AL-27,NA) = 112.0 MB +- 1.2 PERC., VONACH ET AL., 205/20510.001:STANDARD TRANSMISSION EXPERIMENT 205/20511.002:STANDARD RELATIVE TO 397.7 KEV LINE AS 100. 205/20512.001:STANDARD ABSOLUTE MEASUREMENT. 205/20514.002:STANDARD (26-FE-56,NP) FROM NUCLEAR DATA,VOL.1,NO.1,1965. 205/20514.003:STANDARD (79-AU-197,N2N,,MS) FROM NUCLEAR DATA,VOL.1,NO.1,1965. 205/20514.004:STANDARD (79-AU-197,N2N,,MS) FROM NUCLEAR DATA,VOL.1,NO.1,1965. 205/20516.001:STANDARD ABSOLUTE MEASUREMENT. 205/20517.001:STANDARD ABSOLUTE MEASUREMENT. 205/20518.002:STANDARD (71-LU-176,NG,SPC) NORMALIZED TO THE INTENSITY 205/20518.003:STANDARD (71-LU-176,NG,SPC) NORMALIZED TO THE INTENSITY 205/20520.001:STANDARD RATIO 205/20522.002:STANDARD (16-S-32,NP) = 230 +- 20 MB. 205/20522.004:STANDARD (24-CR-52,N2N) = 28 +- 3 MB. 205/20522.005:STANDARD (26-FE-54,NP) = 332 +- 30 MB. 205/20522.006:STANDARD (26-FE-56,NP) = 98 +- 7 MB. 205/20522.007:STANDARD NO STANDARD. 205/20522.008:STANDARD (30-ZN-64,NP) = 159 +- 12 MB. 205/20522.009:STANDARD (32-GE-72,NP) = 31 +- 4 MB. 205/20522.010:STANDARD (39-Y-89,NP) = 20 +- 3 MB. 205/20522.011:STANDARD (42-MO-92,NP) = 60.5 +- 4.5 MB. 205/20522.012:STANDARD (57-LA-139,NP) = 8.7 +- 0.6 MB. 205/20522.013:STANDARD (79-AU-197,NP) = 2.5 +- 0.3 MB. 205/20523.002:STANDARD (15-P-31,NA) = 102 +- 7 MB. 205/20523.003:STANDARD (21-SC-45,NA) = 56 +- 9 MB. 205/20523.004:STANDARD (27-CO-59,NA) = 29.3 +- 0.6 MB. 205/20523.005:STANDARD (33-AS-75,NA) = 9.5 +- 1.0 MB. 205/20523.006:STANDARD (41-NB-93,NA) = 9.5 +- 0.5 MB. 205/20523.007:STANDARD (49-IN-115,NA) = 2.8 +- 0.24 MB. 205/20523.008:STANDARD (13-AL-27,NA) = 121 +- 6 MB. 205/20524.001:STANDARD (79-AU-197,N2N) NEUTRON FLUX WAS MONITORED. 205/20527.001:STANDARD (26-FE-56,NP) 97.8 MB AT 14.7MEV, HEMINGWAY ET AL., 205/20528.001:STANDARD (1-H-1,EL) 205/20530.001:STANDARD ABSOLUTE MEASUREMENTS 205/20531.002:STANDARD THE INTENSITY OF THE 5463 KEV TRANSITION WAS TAKEN 205/20531.003:STANDARD THE 133.61 KEV GROUND-STATE TRANSITION IS THE 205/20532.001:STANDARD ABSOLUTE MEASUREMENT 205/20533.001:STANDARD ABSOLUTE MEASUREMENT 205/20534.001:STANDARD ABSOLUTE MEASUREMENT. 205/20537.003:STANDARD (26-FE-56,EL,DA) FROM BNL-400,3RD ED. (1962) 205/20538.002:STANDARD NUMBER OF GAMMA RAYS PER 100 NEUTRON CAPTURE. 205/20538.003:STANDARD INTENSITIES ARE NORMALIZED SUCH THAT SUM(I(G)*E(G))= 205/20539.001:STANDARD .THE SUM OF INTENSITIES OF PRIMARY GAMMA RAYS WAS 205/20542.002:STANDARD (13-AL-27,NG) = 239 +- 3 MB, BNL-325 SUPPL.2 VOL1(1964) 205/20542.003:STANDARD (13-AL-27,NG) = 239 +- 3 MB, BNL-325 SUPPL.2 VOL1(1964) 205/20542.004:STANDARD .NORMALIZATION WAS PERFORMED SUCH THAT 205/20543.001:STANDARD (13-AL-27,NP) = 68.6 +- 1.4 MILLIB. AT 14.1 MEV, 205/20545.002:STANDARD (29-CU-63,N2N) = 531 +- 21.5 MILLI-B AT 14 MEV. 205/20545.003:STANDARD (8-O-16,NP) = 35.1 +- 4 MILLI-B, PRESENT WORK. 205/20548.001:STANDARD THE ABSOLUTE CALIBRATION OF THE X-SECT.WAS CARRIED OUT 205/20549.001:STANDARD (2-HE-4,EL) AND 205/20550.001:STANDARD SINCE THERE IS NO BETA- GND STATE TRANSITION IN 205/20552.002:STANDARD (92-U-235,NF) = 580 +- 1.8 B, TRETIAKOFF ET AL, CEA-R- 205/20552.003:STANDARD (92-U-235,ETA) = 2.072 +- 0.006, TRETIAKOFF ET AL, 205/20552.004:STANDARD (92-U-235,ABS) = 678.5 +- 1.9 B, TRETIAKOFF ET AL, 205/20553.001:STANDARD TRANSMISSION MEASUREMENTS. 205/20556.001:STANDARD .SEE PUBLICATION. 205/20557.001:STANDARD .NEUTRON FLUX MEASURED WITH B-10-I-NA(TL) DETECTOR OR 205/20558.001:STANDARD .NEUTRON FLUX MEASURED WITH B-10-I-NA(TL) DETECTOR OR 205/20559.001:STANDARD (1-H-1,EL) NUCLEAR DATA TABLES A9(1971)137. 205/20560.001:STANDARD .TRANSMISSION EXPERIMENT. 205/20564.001:STANDARD (62-SM-149,NA,,PAR) = 5.23+-0.17 MILLIBARNS FOR 205/20567.001: .NEUTRON FLUX WAS MEASURED WITH CALIBRATED STANDARD 205/20569.001: .THE NEUTRON FLUX WAS MEASURED WITH STANDARD 205/20573.001:STANDARD .NEUTRON FLUX MEASURED WITH B-10-I-NA(TL) DETECTOR OR 205/20575.001:STANDARD .EFFICIENCIES OF NEUTRON DETECTORS PREVIOUSLY 205/20576.001:STANDARD .DETECTOR EFFICIENCY MEASURED AT SEVERAL ENERGIES 205/20577.001:STANDARD .TRANSMISSION MEASUREMENT. 205/20580.001:STANDARD .MANY CALIBRATION STANDARDS USED,DETAILS IN P.57 205/20581.001:STANDARD (17-CL-0,COH,AMP) COHERENT SCATTERING AMPLITUDE 205/20584.001:STANDARD .FISSION CROSS SECTION AT 24 KEV OBTAINED FROM 205/20585.001:STANDARD .RATIO TERNARY TO BINARY NORMALIZED TO VALUE 100 205/20586.001:STANDARD .CALIBRATION OF SPECTROMETERS WAS MADE USING 205/20587.001:STANDARD (92-U-235,NF,,MXW)=587.6+-2.6 B. NEUTRON FLUX 205/20588.001:STANDARD (92-U-235,NF,,MXW) = 587.6 B 205/20590.001:STANDARD .CALIBRATION OF SPECTROMETERS WAS MADE USING 205/20591.001:STANDARD .A SET RADIOACTIVE SOURCES WAS USED FOR THE 205/20592.001:STANDARD (28-NI-58,NP) 205/20593.001:STANDARD .ABSOLUTE. 205/20595.001:STANDARD (13-AL-27,NA) = 114.5+-4. MB. TAKEN FROM Y.KANDA, 205/20596.001:STANDARD .ABSOLUTE. 205/20597.001:STANDARD .ABSOLUTE. 205/20598.001:STANDARD .ABSOLUTE. 206/20601.001:STANDARD .ABSOLUTE. 206/20602.001:STANDARD .ABSOLUTE. 206/20603.001:STANDARD .ABSOLUTE. 206/20604.001:STANDARD .NO DETAILS OF ENERGY STANDARD. INTENSITIES 206/20605.001:STANDARD .ABSOLUTE. 206/20606.001:STANDARD .ABSOLUTE EFFICIENCY CALIBRATION FROM A GAMMA 206/20607.002:STANDARD (83-BI-209,SCT) 206/20607.003:STANDARD .ABSOLUTE 206/20607.004:STANDARD .TRANSMISSION MEASUREMENT. 206/20608.001:STANDARD .GAMMA-RAY ENERGIES CALIBRATED WITH THE K ALPHA 1 206/20609.001:STANDARD .ABSOLUTE. 206/20612.001:STANDARD (62-SM-149,NA,,PAR/MXW) = 5.23+-0.17 MB,TAKEN FROM 206/20613.001:STANDARD .ABSOLUTE FOR TRANSMISSION, ORGANIC LIQUIDS IN THE 206/20613.003:STANDARD .ABSOLUTE. 206/20613.004:STANDARD .ETHYLALCOHOL, P-XYLENE, TETRACHLOROETHANE, 206/20613.006:STANDARD .ABSOLUTE. 206/20613.007:STANDARD .ETHYLALCOHOL, P-XYLENE, TETRACHLOROETYLENE, 206/20614.001:STANDARD (1-H-1,EL) STILBENE PROTON RECOIL SPECTROMETER. 206/20615.001:STANDARD (6-C-12,EL,DA) FOR DETAILS SEE FORMULA 2 OF 206/20616.001:STANDARD (2-HE-3,NP) HE3(N,P)T CROSS-SECTION TAKEN FROM ALS- 206/20618.002:STANDARD .ABSOLUTE FOR U235. 206/20618.003:STANDARD .RELATIVE ,NORMALIZED TO PREVIOUS SETS OF ABSOLUTE 206/20622.001:STANDARD (79-AU-197,NG,RI,RNV) RESONANCE INTEGRAL EXCLUDING THE 206/20625.001:STANDARD (79-AU-197,NG,RI) THERMAL CROSS SECTION = 98.8+-0.3B, 206/20626.001:STANDARD (79-AU-197,NG,RI) THERMAL CROSS SECTION = 98.8 B, 206/20627.001:STANDARD (79-AU-197,NG,RI) THERMAL CROSS SECTION= 98.8 B, 206/20628.001:STANDARD (27-CO-59,NG,RI) THERMAL CROSS SECTION = 37.3 B, 206/20629.001:STANDARD (27-CO-59,NG,RI) THERMAL CROSS SECTION = 37.3 B, 206/20631.001:STANDARD (27-CO-59,NG,,MXW) THERMAL CROSS SECTION = 37.4 B. 206/20632.001:STANDARD (79-AU-197,NG) SO-FACTOR=17.0+-0.5 (IT AMOUNTS TO A 206/20633.001:STANDARD (79-AU-197,NG,RI) THER. CROSS SECTION=98.8 B,RES. 206/20634.001:STANDARD (79-AU-197,NG,RI) THERMAL CROSS SECTION = 98.8+-0.3B, 206/20635.001:STANDARD (79-AU-197,NG,RI) THERMAL CROSS SECTION = 98.8 B, 206/20636.001:STANDARD (27-CO-59,NG,RI) THERMAL CROSS SECTION = 37.4 B , 206/20637.001:STANDARD (27-CO-59,NG,RI,RNV) THERMAL CROSS SECTION = 37.2 B 206/20640.001:STANDARD (79-AU-197,NG,RI) THERMAL CROSS SECTION=98.8 B, S0- 206/20644.001:STANDARD (27-CO-59,NG,RI) THERMAL CROSS SECTION = 37.5 B, 206/20645.001:STANDARD (79-AU-197,NG,RI) THERMAL CROSS SECTION = 98.8 BARNS, 206/20646.001:STANDARD (79-AU-197,NG,RI)THERMAL CROSS SECTION = 98.8 B, 206/20647.001:STANDARD (79-AU-197,NG,RI) THERMAL CROSS SECTION = 98.8 +- 206/20648.001:STANDARD (79-AU-197,NG,RI) THERMAL CROSS SECTION = 98.4 BARNS, 206/20649.001:STANDARD (79-AU-197,NG) THERMAL CROSS SECTION = 98.8+-0.3 B. 206/20650.001:STANDARD (79-AU-197,NG,RI) RES.INTEGRAL WITH 1/V-PART =1461.8B, 206/20651.001:STANDARD (79-AU-197,NG,,MXW) THERMAL CROSS SECTION=98.7+-0.35B, 206/20652.001:STANDARD (79-AU-197,NG,RI,RNV) RESONANCE INTEGRAL EXCLUDING 206/20653.001:STANDARD (79-AU-197,NG,RI) RESONANCE INTEGRAL INCLUDING 206/20654.001:STANDARD (79-AU-197,NG,RI) RESONANCE INTEGRAL INCLUDING 206/20655.001:STANDARD (79-AU-197,NG,RI) RESONANCE INTEGRAL INCLUDING THE 206/20656.001:STANDARD (79-AU-197,NG,RI,RNV) THERMAL CROSS SECTION=98.8+- 206/20657.001:STANDARD (79-AU-197,NG,RI) THERMAL CROSS SECTION = 98.8+-0.3B, 206/20659.001:STANDARD (13-AL-27,NA) THE REFERENCE REACTION WAS 27AL(N, 206/20660.001:STANDARD .RELATIVE TO SIGMA-64 FOR NI (1.5+-0.15B,SEE J.S. 206/20661.001:STANDARD .THE CROSS SECTION VALUES WERE OBTAINED 206/20662.001:STANDARD .TRANSMISSION MEASUREMENT. 206/20664.001:STANDARD .ABSOLUTE MEASUREMENT, DETAILS SEE NC/A 13. 206/20667.001:STANDARD (26-FE-56,INL,,PAR)THE WELL-KNOWN 847 KEV LINE OF THE 206/20669.001:STANDARD .FOR 46TI(N,T)44(M)SC THE STANDARD USED WAS 206/20670.001:STANDARD (13-AL-27,NA) THE SAMPLES WERE SANDWICHED BETWEEN 2 206/20671.001:STANDARD .TRANSMISSION MEASUREMENT. 206/20672.001:STANDARD .THE REACTION 27AL(N,ALPHA)24NA WAS USED 206/20675.001:STANDARD .REACTION CROSS SECTION FOR 27AL(N,ALPHA)24NA. 206/20676.001:STANDARD .TRANSMISSION EXPERIMENT. 206/20677.001:STANDARD .TRANSMISSION EXPERIMENT. 206/20678.001:STANDARD .TRANSMISSION EXPERIMENT. 206/20679.001:STANDARD .TRANSMISSION EXPERIMENT. 206/20680.001:STANDARD (94-PU-241,NF) = 2367.5 (B*EV) INTEGRATED OVER 206/20681.001:STANDARD .TRANSMISSION EXPERIMENT. 206/20682.001:STANDARD .TRANSMISSION EXPERIMENT. 206/20683.001:STANDARD .TRANSMISSION EXPERIMENT. 206/20684.001:STANDARD .TRANSMISSION EXPERIMENT. 206/20685.001:STANDARD .TRANSMISSION EXPERIMENT. 206/20686.001:STANDARD .TRANSMISSION EXPERIMENT. 206/20687.001:STANDARD .TRANSMISSION EXPERIMENT. 206/20688.001:STANDARD .TRANSMISSION EXPERIMENT. 206/20691.001:STANDARD .GE(LI) COUNTER EFFICIENCY WAS PREVIOUSLY OBTAINED 206/20692.001:STANDARD .NEUTRON FLUX MONITORED USING THRESHOLD DETECTORS 206/20698.001:STANDARD .ENERGY CALIBRATION PERFORMED AT THERMAL NEUTRON 206/20698.001:ERR-ANALYS .COUNT STATISTICS AND UNCERTAINTY OF STANDARD 206/20699.001:STANDARD .ABSOLUTE. 207/20700.001:STANDARD .ABSOLUTE TRANSMISSION MEASUREMENT. 207/20701.001:STANDARD .ABSOLUTE TRANSMISSION MEASUREMENT. 207/20702.001:STANDARD .ABSOLUTE. 207/20703.002: NATURAL LAED IS TAKEN AS STANDARD 207/20703.003:STANDARD (40-ZR-0,INL,,PAR) FORMATION CROSS SECTION OF 2.32 207/20705.001:STANDARD .TRANSMISSION WITH TWO LONG RUNS EACH OF 8HRS WITH 207/20707.001:STANDARD .THE LOW ENERGY GAMMA-RAY ENERGY CALIBRATION WAS 207/20708.001:STANDARD .FOR THE 1EV RESONANCE THE GAMMA ENERGY-SCALE WAS 207/20709.001:STANDARD .TRANSMISSION. 207/20712.001:STANDARD .TRANSMISSION.FOR THE ANALYSIS THE VALUE FOR THE 207/20715.001:STANDARD .THE U-235 DATA WERE NORMALIZED AGAINST A SIMILAR 207/20716.001:STANDARD (13-AL-27,NA) WITH SIGMA=121+-6MB. 207/20717.001:STANDARD .NO DETAILS GIVEN FOR THE CAPTURE MEASUREMENT. 207/20719.001:STANDARD .TRANSMISSION WITH TARGET IN/OUT CYCLE TIME 20MIN. 207/20720.001:STANDARD .TRANSMISSION WITH CYCLE TIME OF 500SEC. 207/20723.001:STANDARD .FOR THE CAPTURE DATA THE WEIGHTING METHOD BY MAIER- 207/20729.001:STANDARD (26-FE-54,NP,,FIS) FISSION-SPECTRUM AVERAGE CROSS 207/20730.001:STANDARD (28-NI-58,NP,,FIS) FISSION-SPECTRUM AVERAGE CROSS 207/20731.001:STANDARD (27-CO-59,NG,RI) THERMAL CROSS SECTION = 37 B, 207/20732.001:STANDARD (13-AL-27,NA,,FIS) FISSION-SPECTRUM AVERAGE CROSS 207/20733.001:STANDARD (28-NI-58,NP,,FIS) FISSION SPECTRUM AVERAGE CROSS 207/20736.001:STANDARD (28-NI-58,NP,,FIS) AVERAGE FISSION SPECTRUM CROSS 207/20737.001:STANDARD (29-CU-63,NA,,FIS) FISSION SPECTRUM AVERAGE CROSS 207/20738.001:STANDARD (28-NI-58,N2N,,FIS) EFFECTIVE THRESHOLD = 12.0 MEV, 207/20739.001:STANDARD .NI-FOILS AS FAST NEUTRON FLUX MONITOR. 207/20741.001:STANDARD .THE FISSION FLUX HAS BEEN TAKEN EQUAL TO 207/20752.001:ANALYSIS .THE FISSION PULSES WERE PROCESSED WITH STANDARD 207/20788.001: SCATTERING, FLUX ATTENUATION IN SAMPLES AND STANDARD 207/20794.001: THE EFFECT OF NEUTRON ENERGY SPREAD ON STANDARD 207/20794.001:ERR-ANALYS .DETAILED DESCRIPTION IN AWRE-O-47/69. ONE STANDARD 207/20795.001: THE EFFECT OF NEUTRON ENERGY SPREAD ON STANDARD 207/20799.001: ERROR AT 99 PERCENT CONFIDENCE LIMIT. (3 STANDARD 208/20813.001: ARE INCLUDED. ALL ERRORS ARE QUOTED AS ONE STANDARD 208/20837.001:ERR-ANALYS .ERROR LIMITS ARE STATISTICAL ONE STANDARD 208/20866.001: .CALIBRATION OF THE SPECTROMETER BY STANDARD 208/20892.007: THE EFFICIENCY OF THE WELL CRYSTAL WITH STANDARD 209/20930.001: THE LITERATURE AND CHECKED WITH A STANDARD 209/20948.001:TITLE -INTERCOMPARISON OF THE INTERMEDIATE-ENERGY STANDARD