William J Weber UT-ORNL Governor’s Chair Professor in Radiation Effects in Materials at the University of Tennessee and 91°µÍø and the Director of the UT-ORNL Ion Beam Materials Laboratory Contact 865.574.6773 | weberwj@ornl.gov All Publications Recent Advances on Carrier and Exciton Self-Trapping in Strontium Titanate: Understanding the Luminescence Emissions Channeling analysis in studying ion irradiation damage in materials containing various types of defects Influence of electronic vs nuclear energy loss in radiation damage of Ti3SiC2 Effects of Fe concentration on helium bubble formation in NiFex single-phase concentrated solid solution alloys Lattice Distortion and Phase Stability of Pd-doped Nicofecr Solid-solution Alloys Primary Radiation Damage: A Review of Current Understanding and Models Energetic Ion Irradiation-induced Disordered Nanochannels for Fast Ion Conduction Interstitial migration behavior and defect evolution in ion irradiated pure nickel and Ni-xFe binary alloys Multiscale characterization of irradiation behaviour of ion-irradiated SiC/SiC composites Enhanced void swelling in NiCoFeCrPd high-entropy alloy by indentation-induced dislocations Ion mass dependence of irradiation-induced damage accumulation in KTaO3 Isolated oxygen vacancies in strontium titanate shine red: Optical identification of Ti3+ polarons pysrim: Automation, Analysis, and Plotting of SRIM Calculations Synergistic effects of nuclear and electronic energy deposition on damage production in KTaO3 Chemical complexity induced local structural distortion in NiCoFeMnCr high-entropy alloy Revealing ionization-induced dynamic recovery in ion-irradiated SrTiO 3 Radiation-induced extreme elastic and inelastic interactions in concentrated solid solutions Sculpting Nanoscale Functional Channels in Complex Oxides Using Energetic Ions and Electrons Local structure and defects in ion irradiated KTaO 3 Local structure of NiPd solid solution alloys and its response to ion irradiation Two-stage synergy of electronic energy loss with defects in LiTaO3 under ion irradiation Stability of vacancy-type defect clusters in Ni based on first-principles and molecular dynamics simulations Improving atomic displacement and replacement calculations with physically realistic damage models Synergistically-enhanced ion track formation in pre-damaged strontium titanate by energetic heavy ions Effect of atomic order/disorder on vacancy clustering in concentrated NiFe alloys Pagination First page « First Previous page ‹â¶Ä¹ … Page 2 Current page 3 Page 4 … Next page ›â¶Äº Last page Last » Key Links Organizations Physical Sciences Directorate Materials Science and Technology Division
