Dynamics of the defect-mediated desorption of alkali halide surfaces

Szymoński, Marek; Droba, Anna; Struski, P.

doi:10.1063/1.4743591

Cited by 4 publications

(3 citation statements)

References 21 publications

(27 reference statements)

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“…As a consequence, less anisotropic erosion is expected for lighter primary ions. Indeed, the threshold for the development of anisotropic ripple structures on KBr surfaces irradiated with He + projectile is shifted to a much larger fluence as compared to the case of irradiation with heavier Ar + ions [68,70].…”

Section: Slow Light Ionsmentioning

confidence: 96%

Highly charged ion induced nanostructures at surfaces by strong electronic excitations

Wilhelm¹,

El-Said²,

Heller³

et al. 2015

Progress in Surface Science

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a b s t r a c tNanostructure formation by single slow highly charged ion impacts can be associated with high density of electronic excitations at the impact points of the ions. Experimental results show that depending on the target material these electronic excitations may lead to very large desorption yields in the order of a few 1000 atoms per ion or the formation of nanohillocks at the impact site. Even in ultra-thin insulating membranes the formation of nanometer sized pores is observed after ion impact. In this paper, we show recent results on nanostructure formation by highly charged ions and compare them to structures and defects observed after intense electron and light ion irradiation of ionic crystals and graphene. Additional data on energy loss, charge exchange and secondary electron emission of highly charged ions clearly show that the ion charge dominates the defect formation at the surface.

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Section: Slow Light Ionsmentioning

confidence: 96%

Highly charged ion induced nanostructures at surfaces by strong electronic excitations

Wilhelm¹,

El-Said²,

Heller³

et al. 2015

Progress in Surface Science

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“…They have many interesting physical properties such as high melting point, strong miscibility, and large band gaps. Due to the fact that in these materials the effective exciton mechanism [1]- [10] of the formation of radiation defects is implemented, they are widely used as radiation detectors, such as scintillators [11]- [15] and a storage phosphors for image plate detectors and optically stimulated dosimeters [16]- [20]. Moreover, alkali halides are used as infrared (IR) optical windows and optoelectronic devices [21], [22].…”

Section: Introductionmentioning

confidence: 99%

Computer Simulations of the Band Structure and Density of States of the Linear Chains of NaCl Ions

Myasnikova

Istlyaup

Sergeyev

et al. 2019

Latvian Journal of Physics and Technical Sciences

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The paper presents the results of first-principles computer simulations of the band structure, the density of states, and the total energy of NaCl (NaCl, Na2Cl2, Na3Cl3, Na4Cl4, Na6Cl6) linear chains of atoms. Modelling of the specified characteristics is realised in the computer code Atomistix ToolKit combined with Virtual NanoLab. The total energy depends on the number of ions in the nanoobject under study, but practically does not depend on the geometric arrangement of ions.

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“…From electron irradiation of alkali halide surfaces a layer-by-layer desorption process was identified [7,[28][29][30][31]. Impacting electrons excite bound electrons in the lattice forming an exciton which gets rapidly self-trapped due to the charge background of the ionic crystal.…”

mentioning

confidence: 99%

Slow highly charged ion induced nanopit formation on the KCl(001) surface

Wilhelm

Heller

Facsko

2016

EPL

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We report on nanostructuring of the KCl(001) surface induced by the individual impact of slow highly charged ions. Samples were irradiated with Xe ions with charge states of Q = 15 to 40 at kinetic energies from 1.7 to 160 keV. The formation of nanopits at the virgin surface is observed and attributed to a defect-mediated desorption process involving the removal of up to 2000 surface atoms per incident ion. The depth of the produced pits is shallow, but not limited to the first monolayer. From the variation of the ion parameters (charge state and kinetic energy) we derive a phase diagram for the structuring of the KCl(001) surface with highly charged ions.

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Dynamics of the defect-mediated desorption of alkali halide surfaces

Cited by 4 publications

References 21 publications

Highly charged ion induced nanostructures at surfaces by strong electronic excitations

Highly charged ion induced nanostructures at surfaces by strong electronic excitations

Computer Simulations of the Band Structure and Density of States of the Linear Chains of NaCl Ions

Slow highly charged ion induced nanopit formation on the KCl(001) surface

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