Statistical study of defects caused by primary knockon atoms in fcc and bcc metals using molecular. dynamics simulations
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1 Statistical study of defects caused by primary knockon atoms in fcc and bcc metals using molecular dynamics simulations Manoj Warrier, U. Bhardwaj, H. Hemani (CAD, BARC Vizag, India) S. Bukkuru (Nuclear Physics Dept., Andhra University Vizag, India) M.C. Valsakumar (SEST, University of Hyderabad Hyderabad, India) Ack: N. Sakthivel, et al from Supercomputer maintanance team, CAD, BARC-Vizag A. Majalee, UPS, CAD, BARC-Vizag
2 Motivation Big picture Multi-scale model Focus of the talk MD of collision cascades MD of interstitial diffusion Scaling up to dynamic MC
3 Obtaining PKA Energy Distributions Cross-sections available. One has to implement not only elastic collisions, but also the relevant transmutation reactions. How do others do it? SPECTRE code, SPECOMP code n energy (MeV) Cross section from Table from: R.E. Stoller and L.R. Greenwood, Jnl. Nucl. Mater. 271&272 (1999) Avg. PKA Energy (kev)
4 Molecular Dynamics Simulations using LAMMPS Concentration dependent EAM Potential for FeCr (not stiffened) BCC crystal, NPT for 10 ps PBCs along X-Y-Z, 10 ps NPT at 300 K, 10 ps NVE collision cascade Variable time stepping, Boundaries fixed Electronic losses not included PKA launched in 1000 random directions at 0.1, 0.5, 1, 2, 3, 4, 5 kev How many simulations are required for acceptable statistics?
5 Cascade evolution with time Cascade dynamics lasts a few pico-secs Higher energy cascades take a longer time to play out Most of the interstitials formed, recombine during the cascade
6 Number of Displaced atoms (directional statistics) A few hundred random directions have to be explored for the standard deviation to stabilize
7 PKA energy attenuation 742nd PKA seems to have initially lost energy only in small angle collisions, thereby losing energy more slowly initially as compared to the 741st PKA
8 Comparison with the NRT model Error bars in MD are the variance for 1000 PKA simulations Number of Surviving Frenkel Pairs follows a power law
9 Tabled statistics for FeCr
10 Cascade evolution in FCC Cu Double hump Is this common for FCC crystals? Non stiffened potentials Kai has given me stiffened Potentials for Cu, Fe and W ToDo..
11 Cascade characteristics in Cu At Cascade Peak After Stablizing Stoller - At peak interstitials are in close proximity which then recombine in an athermal process until steady state value is reached
12 Clustering of interstitials in Cu cascade Cluster identification algorithms - DBSCAN
13 Interstitialcy Diffusion
14 Interstitialcy Diffusion in Cu
15 Interstitialcy Diffusion in Cu
16 Interstitialcy Diffusion in Fe
17 Interstitialcy Diffusion in Fe
18 Interstitialcy Diffusion in W
19 Interstitialcy Diffusion in W
20 Interstitialcy Diffusion Coefficients Note the gray color Needs further analysis see poster to discuss details of analysis
21 Scaling up KMC - MCD Poisson process (assigns real time to the jumps) Jumps are independent (no memory) One particle per time-step inputs Em, jump lengths, jump directions Monte Carlo Diffusion (MCD) used to simulate TGD All particles per time-step inputs Diffusion coefficients Neighbour lists 3-d tree?, parallelization using domain decomposition O-KMC for end of cascade clusters and MCD for larger clusters of interstitials, vacancies and He bubbles?
22 Conclusions A few 100 random directions have to be explored to obtain saturation in the standard deviation in number of displaced atoms in bcc FeCr. In 35 % of the cases at high secondary recoils have a higher range than the PKA. Large displacements seen in 0.2 to 0.9 % of PKAs at energies > 2keV. In situ post-processing for NFP, clustering developed. Interstitialcy diffusion has time scales of a few tens of pico-secs. This will be analyzed for inputs to a O-KMC code and MCD code. Comparison of MD results with TRIM-SP planned (MARLOWE available?) Diffusion in Grain boundaries also needs to be studied (See A. Abishek's poster on He diffusion in grain boundaries).
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