TY - JOUR
T1 - Surface-morphology changes and damage in hot tungsten by impact of 80 eV-12 keV He-ions and keV-energy self-atoms
AU - Meyer, F. W.
AU - Krstic, P. S.
AU - Hijazi, H.
AU - Bannister, M. E.
AU - Dadras, J.
AU - Parish, C. M.
AU - Meyer, H. M.
PY - 2014
Y1 - 2014
N2 - We report results of measurements on the evolution of the surface morphology of a hot tungsten surface due to impacting low-energy (80-12,000 eV) He ions, performed at the ORNL Multicharged Ion Research Facility (MIRF). Surface-morphology changes were investigated over a broad range of fluences, energies and temperatures for both virgin and pre-damaged W-targets. At low fluences, ordered coral-like and ridge-like surface structures are observed, with great grain-to-grain variability. At the largest fluences, individual grain characteristics disappear in FIB/SEM scans, and the entire surface is covered by a multitude of near-surface bubbles with a broad range of sizes, and disordered whisker growth, while in top-down SEM imaging the surface is virtually indistinguishable from the nanofuzz produced on linear plasma devices. These features are evident at progressively lower fluences as the He-ion energy is increased. In addition, simulations were carried out of damage caused by cumulative bombardment of 1 keV W self-atoms, using LAMMPS at the Kraken supercomputing facility of the University of Tennessee. The simulations show strong defect-recombination effects that lead to a saturation of the total defect number after a few hundred impacts, while sputtering and implantation lead to an imbalance of the vacancy and interstitial numbers.
AB - We report results of measurements on the evolution of the surface morphology of a hot tungsten surface due to impacting low-energy (80-12,000 eV) He ions, performed at the ORNL Multicharged Ion Research Facility (MIRF). Surface-morphology changes were investigated over a broad range of fluences, energies and temperatures for both virgin and pre-damaged W-targets. At low fluences, ordered coral-like and ridge-like surface structures are observed, with great grain-to-grain variability. At the largest fluences, individual grain characteristics disappear in FIB/SEM scans, and the entire surface is covered by a multitude of near-surface bubbles with a broad range of sizes, and disordered whisker growth, while in top-down SEM imaging the surface is virtually indistinguishable from the nanofuzz produced on linear plasma devices. These features are evident at progressively lower fluences as the He-ion energy is increased. In addition, simulations were carried out of damage caused by cumulative bombardment of 1 keV W self-atoms, using LAMMPS at the Kraken supercomputing facility of the University of Tennessee. The simulations show strong defect-recombination effects that lead to a saturation of the total defect number after a few hundred impacts, while sputtering and implantation lead to an imbalance of the vacancy and interstitial numbers.
UR - http://www.scopus.com/inward/record.url?scp=84903741083&partnerID=8YFLogxK
U2 - 10.1088/1742-6596/488/1/012036
DO - 10.1088/1742-6596/488/1/012036
M3 - Conference article
AN - SCOPUS:84903741083
SN - 1742-6588
VL - 488
JO - Journal of Physics: Conference Series
JF - Journal of Physics: Conference Series
IS - SECTION 1
M1 - 012036
T2 - 28th International Conference on Photonic, Electronic and Atomic Collisions, ICPEAC 2013
Y2 - 24 July 2013 through 30 July 2013
ER -