Output parameters

This page lists the output parameters in the main _res.m output file.

Homogenized group constants

Notes:

Group constants are calculated by first homogenizing the geometry using a multi-group structure with H energy groups. The data is then collapsed into the final few-group structure with G groups using the infinite and B₁ leakage-corrected flux spectra.
The B₁ calculation is off by default, and invoked by the set fum option.
The intermediate multi-group structure is defined using option set micro.
The few-group structure is defined using option set nfg.
The universes in which the group constants are calculated are listed in option set gcu. The calculation is performed for root universe 0 by default, and can be switched off with "set gcu -1".
The parameter names can be listed in the set coefpara option, and they will be included in the group constant output file when the automated burnup sequence is invoked.

Group constants homogenized in infinite spectrum

Parameter	Size	Description
INF_MICRO_FLX	2H	Multi-group flux
INF_FLX	2G	Few-group flux
INF_KINF	2	Infinite multiplication factor

Reaction cross sections

Parameter	Size	Description
INF_TOT	2G	Total cross section
INF_CAPT	2G	Capture cross section
INF_FISS	2G	Fission cross section
INF_NSF	2G	Fission neutron production cross section
INF_KAPPA	2G	Average deposited fission energy (MeV)
INF_INVV	2G	Inverse neutron speed (s/cm)
INF_NUBAR	2G	Average neutron yield
INF_ABS	2G	Absorption cross section (capture + fission)
INF_REMXS	2G	Removal cross section (group-removal + absorption)
INF_RABSXS	2G	Reduced absorption cross section (total - scattering production)

Fission spectra

Parameter	Size	Description
INF_CHIT	2G	Fission spectrum (total)
INF_CHIP	2G	Fission spectrum (prompt neutrons)
INF_CHID	2G	Fission spectrum (delayed neutrons)

Scattering cross sections

Notes:

Scattering production includes multiplying (n,2n), (n,3n), etc. reactions.

Parameter	Size	Description
INF_SCATT0	2G	Total P₀ scattering cross section
INF_SCATT1	2G	Total P₁ scattering cross section
INF_SCATT2	2G	Total P₂ scattering cross section
INF_SCATT3	2G	Total P₃ scattering cross section
INF_SCATT4	2G	Total P₄ scattering cross section
INF_SCATT5	2G	Total P₅ scattering cross section
INF_SCATT6	2G	Total P₆ scattering cross section
INF_SCATT7	2G	Total P₇ scattering cross section
INF_SCATTP0	2G	Total P₀ scattering production cross section
INF_SCATTP1	2G	Total P₁ scattering production cross section
INF_SCATTP2	2G	Total P₂ scattering production cross section
INF_SCATTP3	2G	Total P₃ scattering production cross section
INF_SCATTP4	2G	Total P₄ scattering production cross section
INF_SCATTP5	2G	Total P₅ scattering production cross section
INF_SCATTP6	2G	Total P₆ scattering production cross section
INF_SCATTP7	2G	Total P₇ scattering production cross section

Scattering matrices

Notes:

Scattering production includes multiplying (n,2n), (n,3n), etc. reactions.
The order of values (.coe) or value pairs (_res.m) is: $\Sigma_{1,1} \, \Sigma_{1,2} \, ... \, \Sigma_{2,1} \, \Sigma_{2,2} \, ...$ where $\Sigma_{g,g'}$ refers to scattering from group g to g'.
The data in the _res.m file can be read into a G by G matrix with Matlab reshape-command, for example: reshape(INF_S0(idx,1:2:end), G, G).

Parameter	Size	Description
INF_S0	4G²	P₀ scattering matrix
INF_S1	4G²	P₁ scattering matrix
INF_S2	4G²	P₂ scattering matrix
INF_S3	4G²	P₃ scattering matrix
INF_S4	4G²	P₄ scattering matrix
INF_S5	4G²	P₅ scattering matrix
INF_S6	4G²	P₆ scattering matrix
INF_S7	4G²	P₇ scattering matrix
INF_SP0	4G²	P₀ scattering production matrix
INF_SP1	4G²	P₁ scattering production matrix
INF_SP2	4G²	P₂ scattering production matrix
INF_SP3	4G²	P₃ scattering production matrix
INF_SP4	4G²	P₄ scattering production matrix
INF_SP5	4G²	P₅ scattering production matrix
INF_SP6	4G²	P₆ scattering production matrix
INF_SP7	4G²	P₇ scattering production matrix

Diffusion parameters

Parameter	Size	Description
INF_TRANSPXS	2G	Transport cross section
INF_DIFFCOEF	2G	Diffusion coefficient

Poison cross sections

Notes:

Printed only if poison cross section option is on (see set poi).

Parameter	Size	Description
INF_I135_YIELD	2G	Fission yield of I-135 (cumulative, includes all precursors)
INF_XE135_YIELD	2G	Fission yield of Xe-135
INF_PM149_YIELD	2G	Fission yield of Pm-149 (cumulative, includes all precursors)
INF_SM149_YIELD	2G	Fission yield of Sm-149
INF_I135_MICRO_ABS	2G	Microscopic absorption cross section of I-135
INF_XE135_MICRO_ABS	2G	Microscopic absorption cross section of Xe-135
INF_PM149_MICRO_ABS	2G	Microscopic absorption cross section of Pm-149
INF_SM149_MICRO_ABS	2G	Microscopic absorption cross section of Sm-149
INF_I135_MACRO_ABS	2G	Macroscopic absorption cross section of I-135
INF_XE135_MACRO_ABS	2G	Macroscopic absorption cross section of Xe-135
INF_PM149_MACRO_ABS	2G	Macroscopic absorption cross section of Pm-149
INF_SM149_MACRO_ABS	2G	Macroscopic absorption cross section of Sm-149

Group constants homogenized in B₁ leakage-corrected spectrum

Parameter	Size	Description
B1_MICRO_FLX	2H	Multi-group flux
B1_FLX	2G	Few-group flux
B1_KINF	2	Infinite multiplication factor
B1_KEFF	2	Effective multiplication factor
B1_B2	2	Critical buckling
B1_ERR	2	Absolute deviation of k_eff from unity

Reaction cross sections

Parameter	Size	Description
B1_TOT	2G	Total cross section
B1_CAPT	2G	Capture cross section
B1_FISS	2G	Fission cross section
B1_NSF	2G	Fission neutron production cross section
B1_KAPPA	2G	Average deposited fission energy (MeV)
B1_INVV	2G	Inverse neutron speed (s/cm)
B1_NUBAR	2G	Average neutron yield
B1_ABS	2G	Absorption cross section (capture + fission)
B1_REMXS	2G	Removal cross section (group-removal + absorption)
B1_RABSXS	2G	Reduced absorption cross section (total - scattering production)

Fission spectra

Parameter	Size	Description
B1_CHIT	2G	Fission spectrum (total)
B1_CHIP	2G	Fission spectrum (prompt neutrons)
B1_CHID	2G	Fission spectrum (delayed neutrons)

Scattering cross sections

Notes:

Scattering production includes multiplying (n,2n), (n,3n), etc. reactions.

Parameter	Size	Description
B1_SCATT0	2G	Total P₀ scattering cross section
B1_SCATT1	2G	Total P₁ scattering cross section
B1_SCATT2	2G	Total P₂ scattering cross section
B1_SCATT3	2G	Total P₃ scattering cross section
B1_SCATT4	2G	Total P₄ scattering cross section
B1_SCATT5	2G	Total P₅ scattering cross section
B1_SCATT6	2G	Total P₆ scattering cross section
B1_SCATT7	2G	Total P₇ scattering cross section
B1_SCATTP0	2G	Total P₀ scattering production cross section
B1_SCATTP1	2G	Total P₁ scattering production cross section
B1_SCATTP2	2G	Total P₂ scattering production cross section
B1_SCATTP3	2G	Total P₃ scattering production cross section
B1_SCATTP4	2G	Total P₄ scattering production cross section
B1_SCATTP5	2G	Total P₅ scattering production cross section
B1_SCATTP6	2G	Total P₆ scattering production cross section
B1_SCATTP7	2G	Total P₇ scattering production cross section

Scattering matrices

Notes:

Scattering production includes multiplying (n,2n), (n,3n), etc. reactions.
The order of values (.coe) or value pairs (_res.m) is: $\Sigma_{1,1} \, \Sigma_{1,2} \, ... \, \Sigma_{2,1} \, \Sigma_{2,2} \, ...$ where $\Sigma_{g,g'}$ refers to scattering from group g to g'.
The data in the _res.m file can be read into a G by G matrix with Matlab reshape-command, for example: reshape(B1_S0(idx,1:2:end), G, G).

Parameter	Size	Description
B1_S0	4G²	P₀ scattering matrix
B1_S1	4G²	P₁ scattering matrix
B1_S2	4G²	P₂ scattering matrix
B1_S3	4G²	P₃ scattering matrix
B1_S4	4G²	P₄ scattering matrix
B1_S5	4G²	P₅ scattering matrix
B1_S6	4G²	P₆ scattering matrix
B1_S7	4G²	P₇ scattering matrix
B1_SP0	4G²	P₀ scattering production matrix
B1_SP1	4G²	P₁ scattering production matrix
B1_SP2	4G²	P₂ scattering production matrix
B1_SP3	4G²	P₃ scattering production matrix
B1_SP4	4G²	P₄ scattering production matrix
B1_SP5	4G²	P₅ scattering production matrix
B1_SP6	4G²	P₆ scattering production matrix
B1_SP7	4G²	P₇ scattering production matrix

Diffusion parameters

Parameter	Size	Description
B1_TRANSPXS	2G	Transport cross section (calculated from diffusion coefficient)
B1_DIFFCOEF	2G	Diffusion coefficient

Poison cross sections

Notes:

Printed only if poison cross section option is on (see set poi).

Parameter	Size	Description
B1_I135_YIELD	2G	Fission yield of I-135 (cumulative, includes all precursors)
B1_XE135_YIELD	2G	Fission yield of Xe-135
B1_PM149_YIELD	2G	Fission yield of Pm-149 (cumulative, includes all precursors)
B1_SM149_YIELD	2G	Fission yield of Sm-149
B1_I135_MICRO_ABS	2G	Microscopic absorption cross section of I-135
B1_XE135_MICRO_ABS	2G	Microscopic absorption cross section of Xe-135
B1_PM149_MICRO_ABS	2G	Microscopic absorption cross section of Pm-149
B1_SM149_MICRO_ABS	2G	Microscopic absorption cross section of Sm-149
B1_I135_MACRO_ABS	2G	Macroscopic absorption cross section of I-135
B1_XE135_MACRO_ABS	2G	Macroscopic absorption cross section of Xe-135
B1_PM149_MACRO_ABS	2G	Macroscopic absorption cross section of Pm-149
B1_SM149_MACRO_ABS	2G	Macroscopic absorption cross section of Sm-149

Delayed neutron data

Notes:

The output always consists of 9 values: total, followed by precursor group-wise values. If the number of groups is 6, the last two values are zero.
The actual number of groups depends on the cross section library used in the calculations. JEFF-3.1, JEFF.3.2 and later evaluations use 8 precursor groups, while earlier evaluations, as well as all ENDF/B and JENDL data is based on 6 groups.

Parameter	Size	Description
BETA_EFF	9	Effective delayed neutron fraction (currently calculated using the Meulekamp method)
LAMBDA	9	Decay constants

Assembly discontinuity factors

Notes:

Calculation of assembly discontinuity factors requires the set adf option.
Surface flux and current tallies are used to calculate the boundary currents and fluxes. Mid-point and corner values are approximated by integrating over a small surface segment.
Fluxes and currents are normalized average values.
When the homogenized region is surrounded by reflective boundary conditions (zero net-current) the homogeneous flux becomes flat and equal to the volume-averaged heterogeneous flux. When the net currents are non-zero, the homogeneous flux is obtained using the Built-in diffusion flux solver.
The calculation currently supports only a limited number of surface types: infinite planes and square and hexagonal prisms.
The order of surface and mid-point values for square prisms is: $X_{\mathrm{W},1} \, X_{\mathrm{W},2} \, ... \, X_{\mathrm{S},1} \, X_{\mathrm{S},2} \, ... \, X_{\mathrm{E},1} \, X_{\mathrm{E},2} \, ... \, X_{\mathrm{N},1} \, X_{\mathrm{N},2} \, ...$ and the order of corner values: $X_{\mathrm{NW},1} \, X_{\mathrm{NW},2} \, ... \, X_{\mathrm{NE},1} \, X_{\mathrm{NE},2} \, ... \, X_{\mathrm{SE},1} \, X_{\mathrm{SE},2} \, ... \, X_{\mathrm{SW},1} \, X_{\mathrm{SW},2} \, ...$ where $X_{k,g}$ refers to parameter $X$ on surface/corner k and energy group g.
The order of surface and mid-point values for hexagonal prims runs clockwise starting from the north (Y-type) or east (X-type) face. The corner values start from the next corner in clockwise direction.
Note to developers: the description may be wrong for for X-type hexagonal prism.

Parameter	Size	Description
DF_SURFACE	(string)	Name of the surface used for the calculation
DF_SYM	1	Symmetry option defined in the input
DF_N_SURF	1	Number of surface values (denoted as N_S below)
DF_N_CORN	1	Number of corner values (denoted as N_C below)
DF_VOLUME	1	Volume (3D) or cross sectional area (2D) of the homogenized cell
DF_SURF_AREA	N_S	Area (3D) or perimeter length (2D) of the surface region
DF_MID_AREA	N_S	Area (3D) or perimeter length (2D) of the mid-point region
DF_CORN_AREA	N_S	Area (3D) or perimeter length (2D) of the corner region
DF_SURF_IN_CURR	2G $\times$ N_S	Inward surface currents
DF_SURF_OUT_CURR	2G $\times$ N_S	Outward surface currents
DF_SURF_NET_CURR	2G $\times$ N_S	Net surface currents
DF_MID_IN_CURR	2G $\times$ N_S	Inward mid-point currents
DF_MID_OUT_CURR	2G $\times$ N_S	Outward mid-point currents
DF_MID_NET_CURR	2G $\times$ N_S	Net mid-point currents
DF_CORN_IN_CURR	2G $\times$ N_C	Inward corner currents
DF_CORN_OUT_CURR	2G $\times$ N_C	Outward corner currents
DF_CORN_NET_CURR	2G $\times$ N_C	Net corner currents
DF_HET_VOL_FLUX	2G	Heterogeneous flux over homogenized cell
DF_HET_SURF_FLUX	2G $\times$ N_S	Heterogeneous surface flux
DF_HET_CORN_FLUX	2G $\times$ N_C	Heterogeneous corner flux
DF_HOM_VOL_FLUX	2G	Homogeneous flux over homogenized cell
DF_HOM_SURF_FLUX	2G $\times$ N_C	Homogeneous surface flux
DF_HOM_CORN_FLUX	2G $\times$ N_C	Homogeneous corner flux
DF_SURF_DF	2G $\times$ N_C	Surface discontinuity factors
DF_CORN_DF	2G $\times$ N_C	Corner discontinuity factors

Output parameters

Contents

Homogenized group constants

Group constants homogenized in infinite spectrum

Reaction cross sections

Fission spectra

Scattering cross sections

Scattering matrices

Diffusion parameters

Poison cross sections

Group constants homogenized in B₁ leakage-corrected spectrum

Reaction cross sections

Fission spectra

Scattering cross sections

Scattering matrices

Diffusion parameters

Poison cross sections

Delayed neutron data

Assembly discontinuity factors

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Output parameters

Contents

Homogenized group constants

Group constants homogenized in infinite spectrum

Reaction cross sections

Fission spectra

Scattering cross sections

Scattering matrices

Diffusion parameters

Poison cross sections

Group constants homogenized in B1 leakage-corrected spectrum

Reaction cross sections

Fission spectra

Scattering cross sections

Scattering matrices

Diffusion parameters

Poison cross sections

Delayed neutron data

Assembly discontinuity factors

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Group constants homogenized in B₁ leakage-corrected spectrum