[Thu Jul 24 22:12:29 CST 2025] [MD] [warn] 'Starting MedeA Core 3.8.1' Forcefield set to: ReaxFF_CHONFClSi File: Forcefields.kit::ReaxFF/CHONFClSi.frc md5 sum: EEC6072DC40A6886440A054B739F8348 MedeA version 3.8.1 #------------------------------------------------------------------------------- # This calculation has 2 stages #------------------------------------------------------------------------------- Stage 1: Variables tstep = 0.2 fs T = 300 K Stage 2: This LAMMPS calculation has 3 stages: Stage 2.1: Initialize LAMMPS for a ReaxFF type of forcefield 'ReaxFF_CHONFClSi' (from Forcefields.kit::ReaxFF/CHONFClSi.frc) Current system formula: Si193O388 (Si193O388) Use of an ReaxFF forcefield results in the specialized nonbond term handling in LAMMPS: Reported "van der Waals" energy (Evdw) includes all nonbond, non-Coulombic energy terms. Run LAMMPS on GPU. Stage 2.2: Set the velocities for 300 K Stage 2.3: NVE integration for Deposition for 1000 ps with a timestep of $tstep Deposit 1 TMOS particle every 4 ps, for a total of 250 deposits: Impact energy is 0.5 eV Deposition region is between 50 and 60 Ang along Z Evaporation region is above 90 along Z Evaporate every 1000 steps Langevin thermostat at $T with 100 applied to subset: thermoset #------------------------------------------------------------------------------- # Running the calculation #------------------------------------------------------------------------------- Stage 1: Variables tstep = 0.2 fs T = 300 K This current forcefield (ReaxFF_CHONFClSi) doesn't handle bonded interactions, bonds will be removed from the structure so that deposition stage can operate properly. Stage 2: This LAMMPS calculation has 3 stages: The forcefield charges were set automatically for ReaxFF_CHONFClSi Stage 2.1: Initialize LAMMPS for a ReaxFF type of forcefield 'ReaxFF_CHONFClSi' (from Forcefields.kit::ReaxFF/CHONFClSi.frc) Current system formula: Si193O388 (Si193O388) Use of an ReaxFF forcefield results in the specialized nonbond term handling in LAMMPS: Reported "van der Waals" energy (Evdw) includes all nonbond, non-Coulombic energy terms. Run LAMMPS on GPU. Stage 2.2: Set the velocities for 300 K Stage 2.3: NVE integration for Deposition for 1000 ps with a timestep of $tstep Deposit 1 TMOS particle every 4 ps, for a total of 250 deposits: Impact energy is 0.5 eV Deposition region is between 50 and 60 Ang along Z Evaporation region is above 90 along Z Evaporate every 1000 steps Langevin thermostat at $T with 100 applied to subset: thermoset Property Value +/- Uncertainty Units After Steps % Run ------------------ ---------- ----------- ------------- ------------ ------- t: 1000000.0 fs T: 300.85 +/- 0.32 K 0 0.0% P: -850 +/- 51 atm 1000000 20.0% V: 39548.5 +/- 0 Ang^3 0 0.0% rho: 0.4987 +/- 0.0017 g/mL 1000000 20.0% Etotal: -3729 +/- 13 eV 1000000 20.0% Epot: -3751 +/- 13 eV 1000000 20.0% Ekin: 22.361 +/- 0.023 eV 0 0.0% Evdw: -3139 +/- 12 eV 1000000 20.0% Ecoul: -612.3 +/- 1.2 eV 1000000 20.0% Sxx: 1025 +/- 91 atm 1000000 20.0% Syy: 1390 +/- 160 atm 0 0.0% Szz: 54 +/- 44 atm 0 0.0% Syz: 1 +/- 66 atm 0 0.0% Sxz: -18 +/- 50 atm 0 0.0% Sxy: 11 +/- 36 atm 0 0.0% Elan: 2150 +/- 160 eV 3500000 70.0% LAMMPS stage successfully completed on 1 core(s) on Fri 25 July 2025 at 14:02:52 CST after 57022 s (15:50:22) Entire job completed on Fri 25 July 2025 at 14:02:52 CST after 57022 s (15:50:22) and running 1 tasks.