thermal spike
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2021 ◽  
Vol 5 (4) ◽  
pp. 32
Author(s):  
Yasushi Sasajima ◽  
Ryuichi Kaminaga ◽  
Norito Ishikawa ◽  
Akihiro Iwase

The nanopore formation process that occurs by supplying a thermal spike to single crystal CeO2 has been simulated using a molecular dynamics method. As the initial condition, high thermal energy was supplied to the atoms in a nano-cylinder placed at the center of a fluorite structure. A nanopore was generated abruptly at around 0.3 ps after the irradiation, grew to its maximum size at 0.5 ps, shrank during the time to 1.0 ps, and finally equilibrated. The nanopore size increased with increasing effective stopping power gSe (i.e., the thermal energy deposited per unit length in the specimen), but it became saturated when gSe was 0.8 keV/nm or more. This finding will provide useful information for precise control of the size of nanopores. Our simulation confirmed nanopore formation found in the actual experiment, irradiation of CeO2 with swift heavy ions, but could not reproduce crystalline hillock formation just above the nanopores.


Author(s):  
Abir Boubir ◽  
Ster Mammeri ◽  
Amel Dib ◽  
Hakim Ammi ◽  
Mandla Msimanga ◽  
...  

2021 ◽  
Author(s):  
Sutapa Dey ◽  
Anusmita Chakravorty ◽  
Shashi Bhusan Mishra ◽  
Nasima Khatun ◽  
Arnab Hazra ◽  
...  

Irradiation of materials by high energy ions (~MeV) causes intense electronic excitations through inelastic transfer of energy that significantly modifies physicochemical properties. We report the effect of 100 MeV Ag...


Crystals ◽  
2020 ◽  
Vol 10 (10) ◽  
pp. 877 ◽  
Author(s):  
Xinqing Han ◽  
Yong Liu ◽  
Miguel L. Crespillo ◽  
Eva Zarkadoula ◽  
Qing Huang ◽  
...  

Systematic research on the response of crystal materials to the deposition of irradiation energy to electrons and atomic nuclei has attracted considerable attention since it is fundamental to understanding the behavior of various materials in natural and manmade radiation environments. This work examines and compares track formation in LiTaO3 induced by separate and combined effects of electronic excitation and nuclear collision. Under 0.71–6.17 MeV/u ion irradiation with electronic energy loss ranging from 6.0 to 13.8 keV/nm, the track damage morphologies evolve from discontinuous to continuous cylindrical zone. Based on the irradiation energy deposited via electronic energy loss, the subsequently induced energy exchange and temperature evolution processes in electron and lattice subsystems are calculated through the inelastic thermal spike model, demonstrating the formation of track damage and relevant thresholds of lattice energy and temperature. Combined with a disorder accumulation model, the damage accumulation in LiTaO3 produced by nuclear energy loss is also experimentally determined. The damage characterizations and inelastic thermal spike calculations further demonstrate that compared to damage-free LiTaO3, nuclear-collision-damaged LiTaO3 presents a more intense thermal spike response to electronic energy loss owing to the decrease in thermal conductivity and increase in electron–phonon coupling, which further enhance track damage.


2020 ◽  
Vol 101 (7) ◽  
Author(s):  
R. C. Vilão ◽  
H. V. Alberto ◽  
R. B. L. Vieira ◽  
J. M. Gil ◽  
A. Weidinger

2020 ◽  
Vol 101 (7) ◽  
Author(s):  
Jess H. Brewer ◽  
Vyacheslav G. Storchak ◽  
Gerald D. Morris ◽  
Dmitry Eshchenko

2020 ◽  
Vol 62 (10) ◽  
pp. 1846-1853
Author(s):  
V. V. Ovchinnikov ◽  
K. V. Shalomov ◽  
E. V. Makarov ◽  
V. I. Solomonov ◽  
S. O. Cholakh

2020 ◽  
Vol 229 ◽  
pp. 05001
Author(s):  
Christelle Stodel ◽  
Marcel Toulemonde ◽  
Christoph Fransen ◽  
Bertrand Jacquot ◽  
Emmanuel Clément ◽  
...  

High electronic excitations in radiation of metallic targets with swift heavy ion beams at the coulomb barrier play a dominant role in the damaging processes of some metals. The inelastic thermal spike model was developed to describe tracks in materials and is applied in this paper to some systems beams/targets employed recently in some nuclear physics experiments. Taking into account the experimental conditions and the approved electron-phonon coupling factors, the results of the calculation enable to interpret the observation of the fast deformation of some targets.


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