ENTRY 14691 20210309 148214691 0 1 SUBENT 14691001 20210309 148214691 1 1 BIB 9 16 14691 1 2 TITLE On the Slow Neutron Absorption Resonances in Iodine 14691 1 3 AUTHOR (Wm.B.Jones Jr) 14691 1 4 REFERENCE (J,PR,72,362,1947) 14691 1 5 #doi:10.1103/PhysRev.72.362 14691 1 6 INSTITUTE (1USACOR) 14691 1 7 FACILITY (CYCLO,1USACOR) 14691 1 8 SAMPLE The iodine used for the absorbers was resublimed 14691 1 9 iodine crystals with a minimum purity of 99.985 14691 1 10 percent. 14691 1 11 DETECTOR (BF3) BF3 ionization chamber. 14691 1 12 METHOD (TRN) The transmission by several thicknesses of 14691 1 13 iodine absorbers was measured over the energy 14691 1 14 interval from 0.0026 eV to 1000 eV, corresponding to 14691 1 15 a time-of-flight interval from 2.2 microsec/m to 1400 14691 1 16 microsec/m. 14691 1 17 HISTORY (20210309C) BP 14691 1 18 ENDBIB 16 0 14691 1 19 NOCOMMON 0 0 14691 1 20 ENDSUBENT 19 0 14691 199999 SUBENT 14691002 20210309 148214691 2 1 BIB 3 6 14691 2 2 REACTION (53-I-127(N,TOT),,SIG,,MXW) 14691 2 3 ANALYSIS Below 3 eV, the iodine cross section was found to 14691 2 4 obey the 1/v absorption law. 14691 2 5 STATUS (DEP,14691018) 14691 2 6 (DEP,14691019) 14691 2 7 (TABLE) page 371. 14691 2 8 ENDBIB 6 0 14691 2 9 NOCOMMON 0 0 14691 2 10 DATA 2 1 14691 2 11 KT DATA 14691 2 12 EV B 14691 2 13 0.025 10.3 14691 2 14 ENDDATA 3 0 14691 2 15 ENDSUBENT 14 0 14691 299999 SUBENT 14691003 20210309 148214691 3 1 BIB 4 17 14691 3 2 REACTION 1(53-I-127(N,0),,EN) 14691 3 3 2(53-I-127(N,TOT),,WID) 14691 3 4 3(53-I-127(N,TOT),,WID,,SQ/S0) 14691 3 5 4(53-I-127(N,TOT),,SIG,,RES) 14691 3 6 ANALYSIS (AREA) An attempt was made to match a symmetrical 14691 3 7 type Breit-Wigner formula to the observed. data at 14691 3 8 the 20.3 eV resonance. The scattering cross section, 14691 3 9 found by extrapolating to zero time of flight the 14691 3 10 straight line which best fitted the data on a 14691 3 11 cross-section vs. time-of-flight graph, is 3.6x10**24 14691 3 12 cm2/atom. 14691 3 13 ERR-ANALYS (DATA-ERR) No details on sources of uncertainties. 14691 3 14 STATUS (DEP,14691012) 14691 3 15 (DEP,14691013) 14691 3 16 (DEP,14691014) 14691 3 17 (DEP,14691015) 14691 3 18 (TABLE) page 362, abstract. 14691 3 19 ENDBIB 17 0 14691 3 20 NOCOMMON 0 0 14691 3 21 DATA 5 1 14691 3 22 DATA 1DATA-ERR 1DATA 2DATA 3DATA 4 14691 3 23 EV EV EV B*EV-SQ B 14691 3 24 20.3 0.5 0.45 15.0 80.0 14691 3 25 ENDDATA 3 0 14691 3 26 ENDSUBENT 25 0 14691 399999 SUBENT 14691004 20210309 148214691 4 1 BIB 5 9 14691 4 2 REACTION (53-I-127(N,TOT),,SIG) 14691 4 3 SAMPLE 31 g/cm2. 14691 4 4 METHOD (TOF) 3 m flight path. 14691 4 5 ERR-ANALYS (ERR-S) The statistical probable errors in the points 14691 4 6 are indicated by the lengths of the vertical lines 14691 4 7 through the points, or for those points with no 14691 4 8 vertical line the probable error is no greater than 14691 4 9 the diameter of the point. 14691 4 10 STATUS (CURVE) Figs. 6-7, page 369. 14691 4 11 ENDBIB 9 0 14691 4 12 NOCOMMON 0 0 14691 4 13 DATA 3 40 14691 4 14 EN DATA ERR-S 14691 4 15 EV B B 14691 4 16 1.698E-01 10.523 14691 4 17 1.797E-01 10.227 14691 4 18 1.955E-01 10.227 14691 4 19 2.128E-01 9.804 14691 4 20 2.273E-01 9.466 14691 4 21 2.428E-01 8.958 14691 4 22 2.617E-01 9.043 14691 4 23 2.876E-01 8.662 14691 4 24 3.043E-01 8.366 14691 4 25 3.280E-01 8.366 14691 4 26 3.537E-01 8.028 14691 4 27 3.848E-01 7.859 14691 4 28 4.149E-01 7.647 14691 4 29 4.432E-01 7.351 14691 4 30 4.777E-01 7.351 14691 4 31 5.199E-01 7.140 14691 4 32 5.265E-01 5.217 0.130 14691 4 33 6.067E-01 4.812 0.116 14691 4 34 7.030E-01 4.942 0.116 14691 4 35 8.098E-01 5.029 0.116 14691 4 36 9.386E-01 4.870 0.130 14691 4 37 1.088E+00 5.203 0.130 14691 4 38 1.245E+00 5.174 0.130 14691 4 39 1.443E+00 4.928 0.116 14691 4 40 1.673E+00 4.580 0.130 14691 4 41 1.939E+00 4.754 0.116 14691 4 42 2.234E+00 4.536 0.116 14691 4 43 2.573E+00 4.565 0.145 14691 4 44 2.973E+00 4.565 0.174 14691 4 45 3.424E+00 4.551 0.145 14691 4 46 3.971E+00 4.101 0.159 14691 4 47 4.573E+00 4.406 0.159 14691 4 48 5.302E+00 4.130 0.145 14691 4 49 6.107E+00 4.159 0.145 14691 4 50 7.166E+00 4.058 0.159 14691 4 51 8.104E+00 4.072 0.130 14691 4 52 9.338E+00 3.855 0.145 14691 4 53 1.089E+01 3.493 0.116 14691 4 54 1.247E+01 3.797 0.130 14691 4 55 1.454E+01 3.942 0.145 14691 4 56 ENDDATA 42 0 14691 4 57 ENDSUBENT 56 0 14691 499999 SUBENT 14691005 20210309 148214691 5 1 BIB 5 9 14691 5 2 REACTION (53-I-127(N,TOT),,SIG) 14691 5 3 SAMPLE 16.7 g/cm2. 14691 5 4 METHOD (TOF) 3 m flight path. 14691 5 5 ERR-ANALYS (ERR-S) The statistical probable errors in the points 14691 5 6 are indicated by the lengths of the vertical lines 14691 5 7 through the points, or for those points with no 14691 5 8 vertical line the probable error is no greater than 14691 5 9 the diameter of the point. 14691 5 10 STATUS (CURVE) Fig. 6, page 369. 14691 5 11 ENDBIB 9 0 14691 5 12 NOCOMMON 0 0 14691 5 13 DATA 3 12 14691 5 14 EN DATA ERR-S 14691 5 15 EV B B 14691 5 16 2.692E-03 20.802 0.508 14691 5 17 3.960E-03 18.983 0.338 14691 5 18 5.555E-03 18.179 0.423 14691 5 19 8.308E-03 18.645 0.338 14691 5 20 1.187E-02 17.672 0.338 14691 5 21 1.729E-02 16.783 0.169 14691 5 22 2.516E-02 16.868 14691 5 23 3.769E-02 15.599 14691 5 24 5.142E-02 14.457 14691 5 25 7.632E-02 13.230 14691 5 26 1.091E-01 12.088 14691 5 27 1.560E-01 10.904 14691 5 28 ENDDATA 14 0 14691 5 29 ENDSUBENT 28 0 14691 599999 SUBENT 14691006 20210309 148214691 6 1 BIB 5 10 14691 6 2 REACTION (53-I-127(N,TOT),,SIG) 14691 6 3 SAMPLE 16.2 g/cm2. 14691 6 4 METHOD (TOF) 6.84 m flight path. 14691 6 5 ERR-ANALYS (ERR-S) The statistical probable errors in the points 14691 6 6 are indicated by the lengths of the vertical lines 14691 6 7 through the points, or for those points with no 14691 6 8 vertical line the probable error is no greater than 14691 6 9 the diameter of the point. 14691 6 10 STATUS (DEP,14691009) 14691 6 11 (CURVE) Fig. 7, page 369. 14691 6 12 ENDBIB 10 0 14691 6 13 NOCOMMON 0 0 14691 6 14 DATA 3 6 14691 6 15 EN DATA ERR-S 14691 6 16 EV B B 14691 6 17 1.634E+01 3.623 0.478 14691 6 18 1.683E+01 4.493 0.536 14691 6 19 1.747E+01 4.130 0.493 14691 6 20 1.803E+01 3.899 0.449 14691 6 21 1.859E+01 3.797 0.536 14691 6 22 1.903E+01 4.870 0.478 14691 6 23 ENDDATA 8 0 14691 6 24 ENDSUBENT 23 0 14691 699999 SUBENT 14691007 20210309 148214691 7 1 BIB 5 9 14691 7 2 REACTION (53-I-127(N,TOT),,TRN) 14691 7 3 SAMPLE 2.5 g/cm2. 14691 7 4 METHOD (TOF) 6.32 m flight path. 14691 7 5 ERR-ANALYS (ERR-S) The statistical probable errors in the points 14691 7 6 are indicated by the lengths of the vertical lines 14691 7 7 through the points, or for those points with no 14691 7 8 vertical line the probable error is no greater than 14691 7 9 the diameter of the point. 14691 7 10 STATUS (CURVE) Fig. 8, page 370. 14691 7 11 ENDBIB 9 0 14691 7 12 COMMON 1 3 14691 7 13 THICKNESS 14691 7 14 G/CM-SQ 14691 7 15 2.5 14691 7 16 ENDCOMMON 3 0 14691 7 17 DATA 3 12 14691 7 18 EN DATA ERR-S 14691 7 19 EV NO-DIM NO-DIM 14691 7 20 1.527E+01 0.942 0.032 14691 7 21 1.755E+01 0.926 0.037 14691 7 22 2.013E+01 0.790 0.027 14691 7 23 2.315E+01 0.874 0.032 14691 7 24 2.660E+01 0.896 0.037 14691 7 25 3.055E+01 0.836 0.039 14691 7 26 3.476E+01 0.651 0.027 14691 7 27 3.977E+01 0.645 0.032 14691 7 28 4.551E+01 0.624 0.025 14691 7 29 5.236E+01 0.777 0.025 14691 7 30 6.027E+01 0.955 0.032 14691 7 31 6.891E+01 0.872 0.034 14691 7 32 ENDDATA 14 0 14691 7 33 ENDSUBENT 32 0 14691 799999 SUBENT 14691008 20210309 148214691 8 1 BIB 5 9 14691 8 2 REACTION (53-I-127(N,TOT),,TRN) 14691 8 3 SAMPLE 9.78 g/cm2. 14691 8 4 METHOD (TOF) 6.6 m flight path. 14691 8 5 ERR-ANALYS (ERR-S) The statistical probable errors in the points 14691 8 6 are indicated by the lengths of the vertical lines 14691 8 7 through the points, or for those points with no 14691 8 8 vertical line the probable error is no greater than 14691 8 9 the diameter of the point. 14691 8 10 STATUS (CURVE) Fig. 8, page 370. 14691 8 11 ENDBIB 9 0 14691 8 12 COMMON 1 3 14691 8 13 THICKNESS 14691 8 14 G/CM-SQ 14691 8 15 9.78 14691 8 16 ENDCOMMON 3 0 14691 8 17 DATA 3 12 14691 8 18 EN DATA ERR-S 14691 8 19 EV NO-DIM NO-DIM 14691 8 20 29.442 0.718 0.041 14691 8 21 33.738 0.440 0.030 14691 8 22 38.270 0.348 0.034 14691 8 23 43.795 0.345 0.027 14691 8 24 49.551 0.400 0.023 14691 8 25 56.783 0.541 0.032 14691 8 26 64.834 0.717 0.032 14691 8 27 73.928 0.753 0.041 14691 8 28 83.847 0.645 0.039 14691 8 29 96.112 0.816 0.041 14691 8 30 109.156 0.850 0.043 14691 8 31 124.222 0.682 0.039 14691 8 32 ENDDATA 14 0 14691 8 33 ENDSUBENT 32 0 14691 899999 SUBENT 14691009 20210309 148214691 9 1 BIB 5 9 14691 9 2 REACTION (53-I-127(N,TOT),,TRN) 14691 9 3 SAMPLE 16.2 g/cm2. 14691 9 4 METHOD (TOF) 6.84 m flight path. 14691 9 5 ERR-ANALYS (ERR-S) The statistical probable errors in the points 14691 9 6 are indicated by the lengths of the vertical lines 14691 9 7 through the points, or for those points with no 14691 9 8 vertical line the probable error is no greater than 14691 9 9 the diameter of the point. 14691 9 10 STATUS (CURVE) Fig. 9, page 370. 14691 9 11 ENDBIB 9 0 14691 9 12 COMMON 1 3 14691 9 13 THICKNESS 14691 9 14 G/CM-SQ 14691 9 15 16.2 14691 9 16 ENDCOMMON 3 0 14691 9 17 DATA 3 10 14691 9 18 EN DATA ERR-S 14691 9 19 EV NO-DIM NO-DIM 14691 9 20 1.071E+01 0.741 0.026 14691 9 21 1.234E+01 0.752 0.026 14691 9 22 1.422E+01 0.758 0.028 14691 9 23 1.645E+01 0.701 0.028 14691 9 24 1.879E+01 0.450 0.039 14691 9 25 2.184E+01 0.445 0.015 14691 9 26 2.527E+01 0.714 0.024 14691 9 27 2.911E+01 0.703 0.026 14691 9 28 3.369E+01 0.499 0.022 14691 9 29 3.881E+01 0.291 0.013 14691 9 30 ENDDATA 12 0 14691 9 31 ENDSUBENT 30 0 14691 999999 SUBENT 14691010 20210309 148214691 10 1 BIB 5 9 14691 10 2 REACTION (53-I-127(N,TOT),,TRN) 14691 10 3 SAMPLE 16.2 g/cm2. 14691 10 4 METHOD (TOF) 6.04 m flight path. 14691 10 5 ERR-ANALYS (ERR-S) The statistical probable errors in the points 14691 10 6 are indicated by the lengths of the vertical lines 14691 10 7 through the points, or for those points with no 14691 10 8 vertical line the probable error is no greater than 14691 10 9 the diameter of the point. 14691 10 10 STATUS (CURVE) Fig. 9, page 370. 14691 10 11 ENDBIB 9 0 14691 10 12 COMMON 1 3 14691 10 13 THICKNESS 14691 10 14 G/CM-SQ 14691 10 15 16.2 14691 10 16 ENDCOMMON 3 0 14691 10 17 DATA 3 12 14691 10 18 EN DATA ERR-S 14691 10 19 EV NO-DIM NO-DIM 14691 10 20 5.309E+01 0.247 0.018 14691 10 21 6.223E+01 0.444 0.024 14691 10 22 7.294E+01 0.680 0.028 14691 10 23 8.660E+01 0.614 0.018 14691 10 24 1.019E+02 0.511 0.022 14691 10 25 1.195E+02 0.649 0.020 14691 10 26 1.406E+02 0.583 0.020 14691 10 27 1.641E+02 0.554 0.022 14691 10 28 1.966E+02 0.572 0.026 14691 10 29 2.275E+02 0.589 0.020 14691 10 30 2.677E+02 0.578 0.024 14691 10 31 3.111E+02 0.560 0.022 14691 10 32 ENDDATA 14 0 14691 10 33 ENDSUBENT 32 0 14691 1099999 SUBENT 14691011 20210309 148214691 11 1 BIB 5 9 14691 11 2 REACTION (53-I-127(N,TOT),,TRN) 14691 11 3 SAMPLE 5.96 g/cm2. 14691 11 4 METHOD (TOF) 6.32 m flight path. 14691 11 5 ERR-ANALYS (ERR-S) The statistical probable errors in the points 14691 11 6 are indicated by the lengths of the vertical lines 14691 11 7 through the points, or for those points with no 14691 11 8 vertical line the probable error is no greater than 14691 11 9 the diameter of the point. 14691 11 10 STATUS (CURVE) Fig. 9, page 370. 14691 11 11 ENDBIB 9 0 14691 11 12 COMMON 1 3 14691 11 13 THICKNESS 14691 11 14 G/CM-SQ 14691 11 15 5.96 14691 11 16 ENDCOMMON 3 0 14691 11 17 DATA 3 12 14691 11 18 EN DATA ERR-S 14691 11 19 EV NO-DIM NO-DIM 14691 11 20 1.477E+01 0.944 0.031 14691 11 21 1.708E+01 0.802 0.028 14691 11 22 2.001E+01 0.646 0.022 14691 11 23 2.336E+01 0.769 0.026 14691 11 24 2.740E+01 0.928 0.028 14691 11 25 3.183E+01 0.845 0.026 14691 11 26 3.726E+01 0.495 0.015 14691 11 27 4.349E+01 0.541 0.022 14691 11 28 5.052E+01 0.433 0.020 14691 11 29 5.874E+01 0.582 0.022 14691 11 30 6.893E+01 0.844 0.024 14691 11 31 8.010E+01 0.837 0.026 14691 11 32 ENDDATA 14 0 14691 11 33 ENDSUBENT 32 0 14691 1199999 SUBENT 14691012 20210309 148214691 12 1 BIB 5 11 14691 12 2 REACTION (53-I-127(N,TOT),,SIG) 14691 12 3 SAMPLE 2.5 g/cm2. 14691 12 4 ANALYSIS Cross sections were calculated from the formula 14691 12 5 T=exp(-sigma n), with no correction for apparatus 14691 12 6 resolution. 14691 12 7 ERR-ANALYS The statistical probable errors in the points are 14691 12 8 indicated by the lengths of the vertical lines 14691 12 9 through the points, or for those points with no 14691 12 10 vertical line the probable error is no greater than 14691 12 11 the diameter of the point. 14691 12 12 STATUS (CURVE) Fig. 10, page 371. 14691 12 13 ENDBIB 11 0 14691 12 14 NOCOMMON 0 0 14691 12 15 DATA 2 12 14691 12 16 EN DATA 14691 12 17 EV B 14691 12 18 1.646E+01 5.005 14691 12 19 1.798E+01 6.584 14691 12 20 2.000E+01 20.320 14691 12 21 2.189E+01 11.232 14691 12 22 2.438E+01 9.180 14691 12 23 2.751E+01 15.339 14691 12 24 3.076E+01 36.006 14691 12 25 3.494E+01 37.043 14691 12 26 4.000E+01 39.465 14691 12 27 4.607E+01 20.979 14691 12 28 5.345E+01 4.092 14691 12 29 6.319E+01 11.200 14691 12 30 ENDDATA 14 0 14691 12 31 ENDSUBENT 30 0 14691 1299999 SUBENT 14691013 20210309 148214691 13 1 BIB 5 11 14691 13 2 REACTION (53-I-127(N,TOT),,SIG) 14691 13 3 SAMPLE 5.96 g/cm2. 14691 13 4 ANALYSIS Cross sections were calculated from the formula 14691 13 5 T=exp(-sigma n), with no correction for apparatus 14691 13 6 resolution. 14691 13 7 ERR-ANALYS The statistical probable errors in the points are 14691 13 8 indicated by the lengths of the vertical lines 14691 13 9 through the points, or for those points with no 14691 13 10 vertical line the probable error is no greater than 14691 13 11 the diameter of the point. 14691 13 12 STATUS (CURVE) Fig. 10, page 371. 14691 13 13 ENDBIB 11 0 14691 13 14 NOCOMMON 0 0 14691 13 15 DATA 2 11 14691 13 16 EN DATA 14691 13 17 EV B 14691 13 18 1.642E+01 1.806 14691 13 19 1.803E+01 7.437 14691 13 20 1.990E+01 15.201 14691 13 21 2.189E+01 9.099 14691 13 22 2.437E+01 2.461 14691 13 23 2.736E+01 5.634 14691 13 24 3.089E+01 24.699 14691 13 25 3.988E+01 29.333 14691 13 26 4.584E+01 19.061 14691 13 27 5.333E+01 5.586 14691 13 28 6.317E+01 7.360 14691 13 29 ENDDATA 13 0 14691 13 30 ENDSUBENT 29 0 14691 1399999 SUBENT 14691014 20210309 148214691 14 1 BIB 5 11 14691 14 2 REACTION (53-I-127(N,TOT),,SIG) 14691 14 3 SAMPLE 9.78 g/cm2. 14691 14 4 ANALYSIS Cross sections were calculated from the formula 14691 14 5 T=exp(-sigma n), with no correction for apparatus 14691 14 6 resolution. 14691 14 7 ERR-ANALYS The statistical probable errors in the points are 14691 14 8 indicated by the lengths of the vertical lines 14691 14 9 through the points, or for those points with no 14691 14 10 vertical line the probable error is no greater than 14691 14 11 the diameter of the point. 14691 14 12 STATUS (CURVE) Fig. 10, page 371. 14691 14 13 ENDBIB 11 0 14691 14 14 NOCOMMON 0 0 14691 14 15 DATA 2 8 14691 14 16 EN DATA 14691 14 17 EV B 14691 14 18 2.650E+01 7.028 14691 14 19 2.998E+01 17.559 14691 14 20 3.341E+01 22.867 14691 14 21 3.814E+01 22.517 14691 14 22 4.322E+01 19.288 14691 14 23 5.092E+01 13.170 14691 14 24 5.826E+01 7.165 14691 14 25 6.884E+01 7.233 14691 14 26 ENDDATA 10 0 14691 14 27 ENDSUBENT 26 0 14691 1499999 SUBENT 14691015 20210309 148214691 15 1 BIB 5 11 14691 15 2 REACTION (53-I-127(N,TOT),,SIG) 14691 15 3 SAMPLE 16.2 g/cm2. 14691 15 4 ANALYSIS Cross sections were calculated from the formula 14691 15 5 T=exp(-sigma n), with no correction for apparatus 14691 15 6 resolution. 14691 15 7 ERR-ANALYS The statistical probable errors in the points are 14691 15 8 indicated by the lengths of the vertical lines 14691 15 9 through the points, or for those points with no 14691 15 10 vertical line the probable error is no greater than 14691 15 11 the diameter of the point. 14691 15 12 STATUS (CURVE) Fig. 10, page 371. 14691 15 13 ENDBIB 11 0 14691 15 14 NOCOMMON 0 0 14691 15 15 DATA 2 12 14691 15 16 EN DATA 14691 15 17 EV B 14691 15 18 1.606E+01 3.624 14691 15 19 1.750E+01 4.671 14691 15 20 1.917E+01 9.450 14691 15 21 2.099E+01 9.109 14691 15 22 2.310E+01 4.393 14691 15 23 2.554E+01 4.476 14691 15 24 2.846E+01 9.465 14691 15 25 3.180E+01 17.012 14691 15 26 4.145E+01 19.084 14691 15 27 4.883E+01 10.939 14691 15 28 5.684E+01 5.038 14691 15 29 6.883E+01 6.380 14691 15 30 ENDDATA 14 0 14691 15 31 ENDSUBENT 30 0 14691 1599999 SUBENT 14691016 20210309 148214691 16 1 BIB 5 11 14691 16 2 REACTION (53-I-127(N,TOT),,SIG) 14691 16 3 SAMPLE 2.5 g/cm2. 14691 16 4 ANALYSIS Cross section of I as a function of neutron energy 14691 16 5 for the energy region studied. No correction has been 14691 16 6 made for apparatus resolution. 14691 16 7 ERR-ANALYS The statistical probable errors in the points are 14691 16 8 indicated by the lengths of the vertical lines 14691 16 9 through the points, or for those points with no 14691 16 10 vertical line the probable error is no greater than 14691 16 11 the diameter of the point. 14691 16 12 STATUS (CURVE) Fig. 11, page 372. 14691 16 13 ENDBIB 11 0 14691 16 14 NOCOMMON 0 0 14691 16 15 DATA 2 9 14691 16 16 EN DATA 14691 16 17 EV B 14691 16 18 1.782E+01 7.400 14691 16 19 1.920E+01 20.560 14691 16 20 2.115E+01 11.668 14691 16 21 2.219E+01 9.463 14691 16 22 2.633E+01 15.438 14691 16 23 2.832E+01 36.280 14691 16 24 3.313E+01 37.276 14691 16 25 3.813E+01 39.836 14691 16 26 4.486E+01 21.342 14691 16 27 ENDDATA 11 0 14691 16 28 ENDSUBENT 27 0 14691 1699999 SUBENT 14691017 20210309 148214691 17 1 BIB 5 11 14691 17 2 REACTION (53-I-127(N,TOT),,SIG) 14691 17 3 SAMPLE 16.2 g/cm2. 14691 17 4 ANALYSIS Cross section of I as a function of neutron energy 14691 17 5 for the energy region studied. No correction has been 14691 17 6 made for apparatus resolution. 14691 17 7 ERR-ANALYS The statistical probable errors in the points are 14691 17 8 indicated by the lengths of the vertical lines 14691 17 9 through the points, or for those points with no 14691 17 10 vertical line the probable error is no greater than 14691 17 11 the diameter of the point. 14691 17 12 STATUS (CURVE) Fig. 11, page 372. 14691 17 13 ENDBIB 11 0 14691 17 14 NOCOMMON 0 0 14691 17 15 DATA 2 13 14691 17 16 EN DATA 14691 17 17 EV B 14691 17 18 1.167E+01 3.915 14691 17 19 1.454E+01 3.915 14691 17 20 1.701E+01 4.911 14691 17 21 2.481E+01 4.484 14691 17 22 5.529E+01 5.480 14691 17 23 6.780E+01 6.689 14691 17 24 8.311E+01 9.250 14691 17 25 1.037E+02 5.835 14691 17 26 1.292E+02 5.195 14691 17 27 1.768E+02 8.183 14691 17 28 2.422E+02 7.685 14691 17 29 3.645E+02 7.329 14691 17 30 5.749E+02 7.472 14691 17 31 ENDDATA 15 0 14691 17 32 ENDSUBENT 31 0 14691 1799999 SUBENT 14691018 20210309 148214691 18 1 BIB 5 11 14691 18 2 REACTION (53-I-127(N,TOT),,SIG) 14691 18 3 SAMPLE 16.7 g/cm2. 14691 18 4 ANALYSIS Cross section of I as a function of neutron energy 14691 18 5 for the energy region studied. No correction has been 14691 18 6 made for apparatus resolution. 14691 18 7 ERR-ANALYS The statistical probable errors in the points are 14691 18 8 indicated by the lengths of the vertical lines 14691 18 9 through the points, or for those points with no 14691 18 10 vertical line the probable error is no greater than 14691 18 11 the diameter of the point. 14691 18 12 STATUS (CURVE) Fig. 11, page 372. 14691 18 13 ENDBIB 11 0 14691 18 14 NOCOMMON 0 0 14691 18 15 DATA 2 12 14691 18 16 EN DATA 14691 18 17 EV B 14691 18 18 2.427E-03 20.702 14691 18 19 2.841E-03 18.924 14691 18 20 3.123E-03 18.141 14691 18 21 3.655E-03 18.426 14691 18 22 4.211E-03 17.643 14691 18 23 5.007E-03 16.719 14691 18 24 5.952E-03 16.861 14691 18 25 7.420E-03 15.509 14691 18 26 8.964E-03 14.442 14691 18 27 1.190E-02 13.162 14691 18 28 1.531E-02 11.953 14691 18 29 2.000E-02 10.886 14691 18 30 ENDDATA 14 0 14691 18 31 ENDSUBENT 30 0 14691 1899999 SUBENT 14691019 20210309 148214691 19 1 BIB 5 11 14691 19 2 REACTION (53-I-127(N,TOT),,SIG) 14691 19 3 SAMPLE 31 g/cm2. 14691 19 4 ANALYSIS Cross section of I as a function of neutron energy 14691 19 5 for the energy region studied. No correction has been 14691 19 6 made for apparatus resolution. 14691 19 7 ERR-ANALYS The statistical probable errors in the points are 14691 19 8 indicated by the lengths of the vertical lines 14691 19 9 through the points, or for those points with no 14691 19 10 vertical line the probable error is no greater than 14691 19 11 the diameter of the point. 14691 19 12 STATUS (CURVE) Fig. 11, page 372. 14691 19 13 ENDBIB 11 0 14691 19 14 NOCOMMON 0 0 14691 19 15 DATA 2 33 14691 19 16 EN DATA 14691 19 17 EV B 14691 19 18 2.269E-02 10.317 14691 19 19 2.697E-02 9.819 14691 19 20 3.207E-02 9.179 14691 19 21 3.813E-02 8.610 14691 19 22 4.828E-02 8.254 14691 19 23 5.923E-02 7.756 14691 19 24 7.383E-02 7.187 14691 19 25 8.373E-02 6.974 14691 19 26 9.645E-02 6.831 14691 19 27 1.111E-01 6.476 14691 19 28 1.342E-01 6.191 14691 19 29 1.570E-01 6.333 14691 19 30 1.927E-01 5.693 14691 19 31 2.364E-01 5.978 14691 19 32 2.993E-01 5.266 14691 19 33 3.789E-01 5.266 14691 19 34 5.108E-01 4.840 14691 19 35 5.792E-01 4.840 14691 19 36 6.569E-01 4.697 14691 19 37 7.686E-01 5.053 14691 19 38 9.139E-01 4.555 14691 19 39 1.069E+00 4.484 14691 19 40 1.354E+00 4.413 14691 19 41 1.714E+00 4.057 14691 19 42 1.974E+00 4.199 14691 19 43 2.239E+00 4.057 14691 19 44 2.579E+00 4.128 14691 19 45 3.115E+00 4.057 14691 19 46 3.532E+00 3.986 14691 19 47 4.402E+00 3.773 14691 19 48 5.486E+00 3.559 14691 19 49 6.837E+00 3.702 14691 19 50 8.931E+00 3.844 14691 19 51 ENDDATA 35 0 14691 19 52 ENDSUBENT 51 0 14691 1999999 ENDENTRY 19 0 1469199999999