TY  -  
T1  - Nanoscale lattice strains in self-ion implanted tungsten 
SN  -  /  
UR  - http://hdl.handle.net/10138/330871 
T3  -  
A1  - Phillips, N. W.; Yu, H.; Das, S.; Yang, D.; Mizohata, K.; Liu, W.; Xu, R.; Harder, R. J.; Hofmann, F. 
A2  -  
PB  -  
Y1  - 2020 
LA  - eng 
AB  - Developing a comprehensive understanding of the modification of material properties by neutron irradiation is important for the design of future fission and fusion power reactors. Self-ion implantation is commonly used to mimic neutron irradiation damage, however an interesting question concerns the effect of ion energy on the resulting damage structures. The reduction in the thickness of the implanted layer as the implantation energy is reduced results in the significant quandary: Does one atte... 
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IS  -  
SP  -  
OP  -  
KW  - Self-ion implantation; Neutron irradiation damage; Bragg CDI; Strain tensor; Defect microscopy; RAY MICRO-DIFFRACTION; X-RAY; SPATIAL-DISTRIBUTION; SPECIMEN PREPARATION; HELIUM-IMPLANTATION; DISLOCATION LOOPS; DEFECT STRUCTURES; DAMAGE PRODUCTION; RADIATION-DAMAGE; CASCADE DAMAGE; 114 Physical sciences 
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ER  -