American Nuclear Society
Home

Home / Publications / Journals / Fusion Science and Technology / Volume 75 / Number 6

Periodic Surface Morphology Characteristics of Tungsten Under Simultaneous Helium and Deuterium Bombardment at 30 keV

Matthew J. Jasica, Gerald L. Kulcinski, John F. Santarius

Fusion Science and Technology / Volume 75 / Number 6 / August 2019 / Pages 526-532

Technical Paper / dx.doi.org/10.1080/15361055.2019.1602397

Received:May 27, 2018
Accepted:March 28, 2019
Published:July 25, 2019

The ITER divertor will feature tungsten monoblocks as the plasma-facing component (PFC) that will be subject to extreme temperature and radiation environments. This paper reports the development of surface morphologies on tungsten under helium bombardment at high temperatures, which has important implications for safety, retention, and PFC erosion. Polycrystalline tungsten samples were implanted in the Dual Advanced Ion Simultaneous Implantation Experiment dual-beam ion implantation experiment at the University of Wisconsin-Madison with He-only and simultaneous He-D implantation at incidence angles of 55 deg, ion energies of 30 keV, and surface temperatures of 900°C to 1100°C. Morphologies resulting from angled incidence conditions differed from those produced under normal incidence bombardment at similar energy and temperature conditions in previous work. A variety of ordered and disordered morphologies dependent on grain orientation were observed for fluences up to 6 × 1018 He cm−2. These morphologies displayed dependencies on crystal orientation at low fluences and incident beam directions at higher fluences. These structures appeared, with variation, under both single-species He and mixed He-D implantations.