Commit 4607a4e5 by Anders Damsgaard

### use correct ratio between muon prod rates, clarify input text

parent 813e26de
 ... ... @@ -93,6 +93,10 @@ c1 = 0.010; c2 = 0.615; c3 = 0.375; % ratios between fast muon capture and negative muons nm_rat10 = 0.1070/(0.1070+0.0940); fm_rat10 = 0.0940/(0.1070+0.0940); %>>>BHJ: To be used in analytical expressions % L_spal = Tau_spal/rho; %Decay depth, exp(-z/L) % L_nm = Tau_nm/rho; ... ... @@ -104,15 +108,17 @@ c3 = 0.375; %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% - Start %P10_top_spal=5.33e3; %atoms/kg/yr %P10_top_nm=0.106e3; %atoms/kg/yr P10_top_fm=0.093e3; %atoms/kg/yr %P10_top_fm=0.093e3; %atoms/kg/yr if ~isempty(fixed_stuff.be_prod_spall) && ... ~isempty(fixed_stuff.be_prod_muons) P10_top_spal = fixed_stuff.be_prod_spall; P10_top_nm = fixed_stuff.be_prod_muons; P10_top_nm = nm_rat10*fixed_stuff.be_prod_muons; P10_top_fm = fm_rat10*fixed_stuff.be_prod_muons; else P10_top_spal=5.33e3; %atoms/kg/yr P10_top_nm=0.106e3; %atoms/kg/yr P10_top_fm=0.093e3; %atoms/kg/yr end %Reference values for Kasper ... ... @@ -148,15 +154,17 @@ end %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% - Start %P26_top_spal=31.1e3; %atoms/kg/yr %P26_top_nm=0.7e3; %atoms/kg/yr P26_top_fm=0.6e3; %atoms/kg/yr %P26_top_fm=0.6e3; %atoms/kg/yr if ~isempty(fixed_stuff.al_prod_spall) && ... ~isempty(fixed_stuff.al_prod_muons) P26_top_spal = fixed_stuff.al_prod_spall; P26_top_nm = fixed_stuff.al_prod_muons; P26_top_nm = nm_rat10*fixed_stuff.al_prod_muons; P26_top_fm = fm_rat10*fixed_stuff.al_prod_muons; else P26_top_spal=31.1e3; %atoms/kg/yr P26_top_nm=0.7e3; %atoms/kg/yr P26_top_fm=0.6e3; %atoms/kg/yr end %Reference values for Kasper ... ... @@ -182,15 +190,17 @@ end %21Ne production %P21_top_spal=20.8e3; %atoms/kg/yr %P21_top_nm=0.4e3; %atoms/kg/yr P21_top_fm=0.35e3; %atoms/kg/yr %P21_top_fm=0.35e3; %atoms/kg/yr if ~isempty(fixed_stuff.ne_prod_spall) && ... ~isempty(fixed_stuff.ne_prod_muons) P21_top_spal = fixed_stuff.ne_prod_spall; P21_top_nm = fixed_stuff.ne_prod_muons; P21_top_nm = nm_rat10*fixed_stuff.ne_prod_muons; P21_top_fm = fm_rat10*fixed_stuff.ne_prod_muons; else P21_top_spal=20.8e3; %atoms/kg/yr P21_top_nm=0.4e3; %atoms/kg/yr P21_top_fm=0.35e3; %atoms/kg/yr end % P21_spal = P21_top_spal*exp(-z*rho/Tau_spal); ... ... @@ -202,15 +212,17 @@ end %14C production %P14_top_spal=14.6e3; %atoms/kg/yr %P14_top_nm=2.3e3; %atoms/kg/yr P14_top_fm=2.1e3; %atoms/kg/yr %P14_top_fm=2.1e3; %atoms/kg/yr if ~isempty(fixed_stuff.c_prod_spall) && ... ~isempty(fixed_stuff.c_prod_muons) P14_top_spal = fixed_stuff.c_prod_spall; P14_top_nm = fixed_stuff.c_prod_muons; P14_top_nm = nm_rat10*fixed_stuff.c_prod_muons; P14_top_fm = fm_rat10*fixed_stuff.c_prod_muons; else P14_top_spal=14.6e3; %atoms/kg/yr P14_top_nm=2.3e3; %atoms/kg/yr P14_top_fm=2.1e3; %atoms/kg/yr end % P14_spal = P14_top_spal*exp(-z*rho/Tau_spal); ... ...
 ... ... @@ -197,7 +197,7 @@ TCN production rates (spallation) [atoms/g/yr]
For each TCN concentration inserted above, please specify the production rate. the production rate by spallation. Values can be estimated using CRONUS-Earth.
... ... @@ -231,7 +231,7 @@ TCN production rates (muons) [atoms/g/yr]
For each TCN concentration inserted above, please specify the production rate. the total production rate by muons. Values can be estimated using CRONUS-Earth.
... ...
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