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Literature DB >> 20357409

Monte Carlo simulation of focused helium ion beam induced deposition.

Daryl A Smith¹, David C Joy, Philip D Rack.

Abstract

The details of a Monte Carlo helium ion beam induced deposition simulation are introduced and initial results for reaction rate and mass transport limited growth regimes are presented. Reaction rate limited growth leads to fast vertical growth from incident primary ions and minimal lateral broadening, whereas mass transport limited growth has lower vertical growth velocity and exhibits broadening due to scattered ions and secondary electrons. The results are compared to recent experiments and previous electron beam induced deposition simulations.

Entities: Chemical

Year: 2010 PMID： 20357409 DOI： 10.1088/0957-4484/21/17/175302

Source DB: PubMed Journal: Nanotechnology ISSN： 0957-4484 Impact factor: 3.874

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Cited

4 in total

4. Monte Carlo simulation of nanoscale material focused ion beam gas-assisted etching: Ga⁺ and Ne⁺ etching of SiO₂ in the presence of a XeF₂ precursor gas.

Authors: Kyle T Mahady; Shida Tan; Yuval Greenzweig; Amir Raveh; Philip D Rack
Journal: Nanoscale Adv Date: 2019-07-30

4 in total

Monte Carlo simulation of focused helium ion beam induced deposition.

Review 1. Superconducting Materials and Devices Grown by Focused Ion and Electron Beam Induced Deposition.

2. Thermal decomposition of fullerene nanowhiskers protected by amorphous carbon mask.

3. Direct Write of 3D Nanoscale Mesh Objects with Platinum Precursor via Focused Helium Ion Beam Induced Deposition.

4. Monte Carlo simulation of nanoscale material focused ion beam gas-assisted etching: Ga⁺ and Ne⁺ etching of SiO₂ in the presence of a XeF₂ precursor gas.

Monte Carlo simulation of focused helium ion beam induced deposition.

Review 1. Superconducting Materials and Devices Grown by Focused Ion and Electron Beam Induced Deposition.

2. Thermal decomposition of fullerene nanowhiskers protected by amorphous carbon mask.

3. Direct Write of 3D Nanoscale Mesh Objects with Platinum Precursor via Focused Helium Ion Beam Induced Deposition.

4. Monte Carlo simulation of nanoscale material focused ion beam gas-assisted etching: Ga+ and Ne+ etching of SiO2 in the presence of a XeF2 precursor gas.

4. Monte Carlo simulation of nanoscale material focused ion beam gas-assisted etching: Ga⁺ and Ne⁺ etching of SiO₂ in the presence of a XeF₂ precursor gas.