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SHIELD-HIT(INR RAS,KI,2001)

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Presentation on theme: "SHIELD-HIT(INR RAS,KI,2001)"— Presentation transcript:

1 SHIELD-HIT(INR RAS,KI,2001)
(Energies at 1 TeV/A are available) SHIELDHI(INR RAS,1997) (Interactions of nucleons, Pi, K, anti nucleons, muons, all (A,Z) nuclei. All isotope and chemical compounds, complex geometry) SHIELD(INR RAS,1989) (Kernel had been totally overwritten. Growth of functionality) SHIELD(JINR,1972) (Nucleons-Pi mesons cascades evolution up to energy 20 – 30 GeV )

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3 (Combinatorial geometry)
Improved CG module (Combinatorial geometry) Geometry LOENT (ABBN 28 constants) Low energy neutrons transportation MSDM generator (Multy Stage Dynamical Model. Exclusive approach. ) Inelastic interactions

4 Geometry file for GERDA transport container simulation
RCC 70.0 RCC 27.0 RCC 21.0 ELL RCC 800.0 RCC RCC RCC 2000.0 END FER CAV GER SFE GRD GAP VAC OUT

5 Zone numbers are shown in parenthesis
Simulation of Isotope Production Rate inside the GERDA Transport Container Using the SHIELD Monte Carlo Hadron Transport Code N. Sobolevsky, A. Denisov, INR RAS, Container: R1=70 cm, H1=126.5 cm Bottom depth 15 cm Cavity: R2=27 cm, H2=40 cm Ge-shipment: R3=21 cm, H3=27 cm OUT (8) Air (7) Container Fe (1) Cavity (2) Ge (3) Air gap (6) Normalizing sphere (4), R=150 cm 120 cm Ground (5), Depth=4 m Zone numbers are shown in parenthesis

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8 Input file msdm_in.dat for MSDM hA-generator of the SHIELD code
used to calculate excitation functions. IXFIRS,FORMAT(2I12): JPART, FORMAT(I12): NUCLID, FORMAT(I12): NSTAT, FORMAT(I12): LANTI, FORMAT(I12): ! 0 - Lab. frame; 1 - AntiLab. frame LSTAR, FORMAT(I12): ! 0 - no print; 1/2 - short/total print LCASC, FORMAT(I12): ! 0 - AGT; 1 - CASCAD DATA FOR HISTOGRAMMING EXCITATION FUCNTIONS EMIND,FORMAT(F12.3): EMAXD,FORMAT(F12.3): ESTPD,FORMAT(F12.3):  X > < DATA >< Comments >

9 Example of “medium.dat” file.
NUMMED= 4 MEDIUM NO. 1 (75%W+25%H2O vol.) MEDTYP=4 NELEM=3 RHO=14.725 1 NUCLID= 74 CON1= E-04 RHO1=14.475 2 NUCLID= 1 CON2= E-04 RHO2= 0.028 3 NUCLID= 8 CON3= E-05 RHO3= 0.222 MEDIUM NO. 2 (H2O - water) MEDTYP=2 NELEM=2 RHO= 1.000 1 NUCLID= 1 IND1=2.0 2 NUCLID= 8 IND2=1.0 MEDIUM NO. 3 (90%Fe+10%H2O vol.) MEDTYP=4 NELEM=3 RHO= 7.183 1 NUCLID= 26 CON1= E-04 RHO1= 7.083 2 NUCLID= 1 CON2= E-05 RHO2= 0.011 3 NUCLID= 8 CON3= E-05 RHO3= 0.089 MEDIUM NO. 4 (Pu240) MEDTYP=1 1 NUCLID=107

10 Comparing with Bugaev - Bezrukov
MaGe Energy transfer spectrum from muon to hadron shower Comparing with Bugaev - Bezrukov formula MaGe SHIELD Simulation of simple geometry for hadron transportation Comparing results and analyzing discrepancies

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