Your search keyword '"focus ion beam"' showing total 60 results

1. Rapid microcantilever preparation for conditional fracture toughness evaluation

Author

Md Tariqul Islam, Christopher R. Weinberger, and Gregory B. Thompson

Subjects

Sample preparation, Microcantilever, Focus ion beam, Fracture mechanics, Mining engineering. Metallurgy, TN1-997

Abstract

The Ga+ focused Ion Beam (FIB) or Xe+ Plasma FIB (PFIB) procedure has enabled the ability to make specimens where mechanical tests in the microscale regime can be achieved with high precision. Nevertheless, milling times can be long and shape optimization can be arduous collectively limiting the ability to readily make a sufficient number of test samples. In this work, we present a sample preparation technique for microscale cantilever fabrication which streamlines the milling procedures by using combined electropolishing and FIB milling. Specifically, the procedure mitigates extensive undercutting requirements which reduces the fabrication time for the microcantilever to more than half that time as compared to direct milling methods from making similar geometries directly from the bulk material. This process is discussed along with specific aspects related to the sample alignment of the cantilever to specific fracture planes for single crystals. In addition, we comment on the applicability of this method to polycrystalline samples.

Published

2024

2. Corrosion behaviour of AA7108 aluminum alloy

Author

Cai, Changrun and Zhou, Xiaorong

Subjects

Trenching corrosion, intergranular corrosion, AA7108 aluminium alloy, Fe-containing particles, Focus ion beam, Scanning transmission electron microscope, scanning electron microscope, EBSD

Abstract

This study has investigated the influence of microstructure on the corrosion properties of AA7108 T6 aluminium alloy extrusions. Additionally, through the analysis of AA7108 alloy, the using of highresolution electron microscopy allowed the characterising of microstructure evolution during corrosion process from microscale to nanoscale. This provides previously unseen details of trenching corrosion, intergranular corrosion and crystallographic corrosion. Based on these details, the relevant corrosion mechanisms are proposed. Besides the general characterisation of intermetallic phases and grain structure of AA7108 alloy, the local microstructural variation related to Fe-containing constituent intermetallic particles is characterised. Non-uniform local plastic deformation and precipitate free zones (PFZs) are observed in the regions surrounding the particles; an aluminium oxide film and an Fe-rich layer beneath the oxide film are also observed on the Fe-containing particle surface. Further, discontinuity in the distribution of η'/η (MgZn₂) phase precipitates and variation in the width of PFZs are characterised at dislocations, sub-grain boundaries and grain boundaries. It is revealed that the size and the local discontinuity of η'/η (MgZn₂) phase, as well as the width of PFZs show the increase tendency with the degree of misorientation increasing. Corrosion test in neutral NaCl solution shows that trenching corrosion around Fe-containing particles is the primary corrosion phenomenon of AA7108 alloy. Up to even 5 hours exposure to the testing solution, intergranular corrosion or other types of severe localised corrosion are rarely observed. In contrast, corrosion test in NaCl solution acidified to pH 3.2 shows that intergranular corrosion and crystallographic corrosion are the main corrosion phenomena of AA7108 alloy. During trenching corrosion, Fe-containing particles as the net cathodes are not completely under cathodic protection. The corrosion of Fe-containing particles occurs as soon as the start of the immersion test, resulting in Fe-rich corrosion product on particle surface. As the net anode, alloy matrix dissolution leads to porous oxide film growth on the corroded Al matrix surface. The porous oxide film is perpendicular to the corroded matrix surface. The results suggest that these two phenomena are related to the local alkalisation due to the oxygen reduction reaction on particle surface. The corrosion morphology is consistent with the local alkalinity distribution. The mechanism of trenching corrosion induced by Fe-containing particles is proposed. Further, during the early stage, trenching corrosion might not be uniform, which is due to the non-uniformity of the local alkalinisation. The corrosion potential difference, the surface defects or the localised plastic deformation do not show significant influence on the non-uniformity of trenching corrosion. The test and associated characterisation also suggest that Clions do not play a significant role in trenching corrosion. In acidic NaCl solution, intergranular corrosion is initiated from the surface cavities introduced by the preferential dissolution of MgZn2 precipitate. Then, intergranular corrosion propagates via a combination of two factors: the driving force related to crystallographic dissolution and the driving force related to dissolution along the grain boundary interface. Crystallographic corrosion of grain interior propagates develops the typical half-cube corrosion morphology. The regions, with a high population of Al3Zr dispersoids, are resistant to crystallographic corrosion.

Published

2021

3. Highly Conductive Paths in Diamond and their Application in High Pressure Measurements.

Author

Gramala M, Sikora A, Chudzyńska A, Gelczuk Ł, Dybała F, Modrzyński P, and Kudrawiec R

Abstract

Diamonds possess exceptional properties such as high mechanical strength, thermal conductivity, and electrical resistance, making them suitable for various applications, including high-power electronics and optoelectronics. However, fabricating conductive structures in diamond remains a significant technological challenge. In this publication, we present a controlled process for fabricating precise amorphous conductive paths in a monocrystalline diamond using a focused ion beam (FIB) technique. The resistivity and thickness of the fabricated structures were determined, and their morphology was carefully characterized. The results showed that the optimal charge dose for achieving the lowest resistance was found to be 10 17 ions/cm 2 . The fabricated structures exhibited amorphous morphology. Elemental analysis confirmed the presence of gallium ions in the modified material. The resistivity of the conductive paths was determined to be 30 μΩm, which is remarkably low compared to previous studies and only 1-2 orders of magnitude higher than in metals. Additionally, it is shown that this technology has potential applications in high-pressure chambers and the development of high-pressure sensors within diamond anvils. Overall, this study provides valuable insights into fabricating conductive structures on diamonds using FIB and opens up possibilities for diamond electronics.

Published

2024

4. Liquid in situ analytical TEM : technique development and applications to austenitic stainless steel

Author

Schilling, Sibylle and Burke, Mary

Subjects

620.1, In Situ TEM, Liquid TEM, TEM electrochemical cell, Analytical Transmission Electron Microscopy, Focus Ion Beam, FIB, Specimen Preparation, Specimen Preparation Technique, X-ray Energy Dispersive Spectroscopy, Austenitic Stainless Steel, MnS inclusions, dissolution, microanalysis, Beam-heating, Cerrolow 117

Abstract

Environmentally-assisted cracking (EAC) phenomena affect the in-service behaviour of austenitic stainless steels in nuclear power plants. EAC includes such degradation phenomena as Stress Corrosion Cracking (SCC) and Corrosion Fatigue (CF). Factors affecting EAC include the material type, microstructure, environment, and stress. This is an important degradation issue for both current and Gen III+ light water reactors, particularly as nuclear power plant lifetimes are extended ( > 60 years). Thus, it is important to understand the behaviour of the alloys used in light water reactors, and phenomena such as SCC to avoid failures. Although there is no agreement on the mechanism(s) of SCC, the importance of localized electrochemical reactions at the material surface is widely recognised. Considerable research has been performed on SCC and CF crack growth, but the initiation phenomena are not fully understood. In this project, novel in situ analytical TEM techniques have been developed and applied to explore localised reactions in Type 304 austenitic stainless steel. In situ transmission electron microscopy has become an increasingly important and dynamic research area in materials science with the advent of unique microscope platforms and a range of specialized in situ specimen holders. In metals research, the ability to image and perform X-ray energy dispersive spectroscopy (XED) analyses of metals in liquids are particularly important for detailed study of the metal-environment interactions with specific microstructural features. To further facilitate such studies a special hybrid specimen preparation technique involving electropolishing and FIB extraction has been developed in this thesis to enable metal specimens to be examined in the liquid cell TEM specimen holder using both distilled H2O and H2SO4 solutions. Furthermore, a novel electrode configuration has been designed to permit the localized electrochemical measurement of electron-transparent specimens in the TEM. These novel approaches have been benchmarked by extensive ex situ experiments, including both conventional electrochemical measurements and microcell measurements. The results are discussed in terms of validation of in situ test data as well as the role of the electron beam in the experiments. In situ liquid cell TEM experiments have also explored the localized dissolution of MnS inclusions in H2O, and correlated the behaviour with ex situ experiments. Based on the research performed in this thesis, in situ liquid cell and in situ electrochemical cell experiments can be used to study nanoscale reactions pertaining to corrosion and localized dissolution leading to "precursor" events for subsequent EAC phenomena.

Published

2017

5. Controllable Fabrication and Rectification of Bipolar Nanofluid Diodes in Funnel-Shaped Si3N4 Nanopores

Author

Lei, Xin (author), Zhang, Jiayan (author), Hong, H. (author), Wei, Jiangtao (author), Liu, Zewen (author), Jiang, Lei (author), Lei, Xin (author), Zhang, Jiayan (author), Hong, H. (author), Wei, Jiangtao (author), Liu, Zewen (author), and Jiang, Lei (author)

Abstract

Solid-state nanopores attract widespread interest, owning to outstanding robustness, extensive material availability, as well as capability for flexible manufacturing. Bioinspired solid-state nanopores further emerge as potential nanofluidic diodes for mimicking the rectification progress of unidirectional ionic transport in biological K+ channels. However, challenges that remain in rectification are over-reliance on complicated surface modifications and limited control accuracy in size and morphology. In this study, suspended Si3N4 films of only 100 nm thickness are used as substrate and funnel-shaped nanopores are controllably etched on that with single-nanometer precision, by focused ion beam (FIB) equipped with a flexibly programmable ion dose at any position. A small diameter 7 nm nanopore can be accurately and efficiently fabricated in only 20 ms and verified by a self-designed mathematical model. Without additional modification, funnel-shaped Si3N4 nanopores functioned as bipolar nanofluidic diodes achieve high rectification by simply filling each side with acidic and basic solution, respectively. Main factors are finely tuned experimentally and simulatively to enhance the controllability. Moreover, nanopore arrays are efficiently prepared to further improve rectification performance, which has great potential for high-throughput practical applications such as extended release of drugs, nanofluidic logic systems, and sensing for environmental monitoring and clinical diagnosis., Green Open Access added to TU Delft Institutional Repository 'You share, we take care!' - Taverne project https://www.openaccess.nl/en/you-share-we-take-care Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public., Electronic Components, Technology and Materials

Published

2023

6. Controllable Fabrication and Rectification of Bipolar Nanofluid Diodes in Funnel-Shaped Si 3 N 4 Nanopores.

Author

Lei X, Zhang J, Hong H, Wei J, Liu Z, and Jiang L

Abstract

Solid-state nanopores attract widespread interest, owning to outstanding robustness, extensive material availability, as well as capability for flexible manufacturing. Bioinspired solid-state nanopores further emerge as potential nanofluidic diodes for mimicking the rectification progress of unidirectional ionic transport in biological K + channels. However, challenges that remain in rectification are over-reliance on complicated surface modifications and limited control accuracy in size and morphology. In this study, suspended Si 3 N 4 films of only 100 nm thickness are used as substrate and funnel-shaped nanopores are controllably etched on that with single-nanometer precision, by focused ion beam (FIB) equipped with a flexibly programmable ion dose at any position. A small diameter 7 nm nanopore can be accurately and efficiently fabricated in only 20 ms and verified by a self-designed mathematical model. Without additional modification, funnel-shaped Si 3 N 4 nanopores functioned as bipolar nanofluidic diodes achieve high rectification by simply filling each side with acidic and basic solution, respectively. Main factors are finely tuned experimentally and simulatively to enhance the controllability. Moreover, nanopore arrays are efficiently prepared to further improve rectification performance, which has great potential for high-throughput practical applications such as extended release of drugs, nanofluidic logic systems, and sensing for environmental monitoring and clinical diagnosis., (© 2023 Wiley-VCH GmbH.)

Published

2023

7. Surface failure analysis of AlCrN coating on WC substrate subjected to high-temperature oxidation in glass-molding machine.

Author

Lee, Seon-Hong, Ko, In-Hwan, and Kim, Tae-Young

Subjects

*TUNGSTEN carbide, *SURFACE coatings, *MICROSTRUCTURE, *ALUMINUM, *CHROMIUM

Abstract

In this study, a surface failure analysis was performed on an aluminum chromium nitride (AlCrN) coating formed on a tungsten carbide (WC) substrate used in a glass-molding machine and subjected to oxidation at elevated temperatures. Several pinholes were observed in the coating, with the coating surface exhibiting discoloring. The microstructures, crystalline structures, and elemental compositions of the coating and substrate were observed using scanning electron microscopy, X-ray diffraction analysis, and X-ray fluorescence spectroscopy. In particular, the phenomena occurring near the coating/substrate interface were examined using focused ion beam milling and grazing incidence X-ray diffraction analysis. The pinholes-containing coating area consisted of an oxide, with the composition of the coating being inhomogeneous. Further, voids were present near the substrate/coating interface, with some of the coating components being detected in the substrate as well. It was concluded that the Al/Cr atomic ratio of the AlCrN coating was not constant, owing to the oxidation of the coating at the elevated temperatures. [ABSTRACT FROM AUTHOR]

Published

2018

8. Surface oxide analysis of lead‐free solder particles

Author

Luo, Xin, Du, Wenhui, Lu, Xiuzhen, Yamaguchi, Toshikazu, Jackson, Gavin, lei Ye, Li, and Liu, Johan

Published

2013

9. Tomography of Electrospun Carbon Nanotube Polymeric Blends by Focus Ion Beam: Alignment and Phase Separation Analysis from Multicontrast Electron Imaging.

Author

Campo, Eva M., Yates, Douglas, Berson, Benjamin, Rojas, Wudmir, Winter, Allen D., Ananth, Mohan, Santiago‐Aviles, Jorge J., and Terentjev, Eugene M.

Subjects

*ELECTROSPINNING, *CARBON nanotubes, *POLYMER blends, *FOCUSED ion beams, *PHASE separation, *POLYDIMETHYLSILOXANE

Abstract

Multimodal focused ion beam (FIB) imaging on a polydimethylsiloxane/poly(methyl methacrylate) (PMMA)/multiwall carbon nanotube (MWCNT) electrospun composite has been applied to discriminate the phase-separated polymer blend and identify MWCNT fillers. Upon tomographic reconstruction, this discrimination has been possible through both atomic number and voltage contrast, the latter being enabled by preferential MWCNT segregation to PMMA. This study suggests that electrospinning could be affecting not only MWCNT alignment but also phase separation dynamics of immiscible polymers, yielding a porous structure throughout the fibers. This work opens the door to correlative materials science in polymer nanocomposites through FIB tomography, where voltage contrast is a main actor. [ABSTRACT FROM AUTHOR]

Published

2017

10. Effect of water and nano-silica solution on the early stages cement hydration.

Author

Asgari, Hamed, Ramezanianpour, Aliakbar, and Butt, Hans-Jürgen

Subjects

*NANOSILICON, *CEMENT, *HYDRATION, *ATOMIC force microscopy, *YOUNG'S modulus, *ION beams, *MECHANICAL behavior of materials

Abstract

The nanoscopic young’s modulus of cement paste during early ages of hydration in water and nano-silica was investigated by the application of atomic force microscopy (AFM). Peak-Force Quantitative Nano-Mechanical (PFQNM) imaging mode in atomic force microscopy was used to determine elastic modulus of cement paste before and after immersion in water and nano-silica solution. The results clearly show how mechanical and physical properties of cement grains changes progressively to higher values during the hydration process in water and nano-silica. Moreover, an empirical theory on mechanism of hydration development is proposed in the current study based on experimental observations. Average Young’s modulus of condensed cement powder was changed from about 15 GPa, for unhydrated state, to 11.3 GPa after two hours of hydration in water environment. The average roughness trend was also altered from 8.31 nm to 18.2 nm during hydration process. Results show that the cement hydration rate in nano-silica solution is much higher than water environment. Moreover transition zone between C-S-H colonies have much higher mechanical properties than the hardest colonies in every ages. In the presence of nano-silica, transition zone has a width of less than 10 nm and a surface area of 5% of the overall surface area. [ABSTRACT FROM AUTHOR]

Published

2016

11. ZnO-Based Microcavities Sculpted by Focus Ion Beam Milling.

Author

Chang, Tsu-Chi, Hong, Kuo-Bin, Lai, Ying-Yu, Chou, Yu-Hsun, Wang, Shing-Chung, and Lu, Tien-Chang

Subjects

ZINC oxide, ION beams, MICROCAVITY lasers, FABRICATION (Manufacturing), CATHODOLUMINESCENCE, PHOTOLUMINESCENCE, SIMULATION methods & models

Abstract

We reported an easy fabrication method to realize ZnO-based microcavities with various cavity shapes by focused ion beam (FIB) milling. The optical characteristics of different shaped microcavities have been systematically carried out and analyzed. Through comprehensive studies of cathodoluminescence and photoluminescence spectra, the whispering gallery mode (WGM) was observed in different shaped microcavities. Up further increasing excitation, the lasing action was dominated by these WGMs and matched very well to the simulated results. Our experiment shows that ZnO microcavities with different shapes can be made with high quality by FIB milling for specific applications of microlight sources and optical devices. [ABSTRACT FROM AUTHOR]

Published

2016

12. Methodology exploration of specimen preparation for atom probe tomography from nanowires.

Author

Qu, Jiangtao, Wong, Derek, Du, Sichao, Yang, Limei, Ringer, Simon, and Zheng, Rongkun

Subjects

*CHEMICAL sample preparation, *ATOM-probe tomography, *NANOWIRES, *ION beams, *PHOTONICS, *ENERGY conversion

Abstract

Semiconductor nanowires have been intensively explored for applications in electronics, photonics, energy conversion and storage. A fundamental and quantitative understanding of growth–structure–property relationships is central to applications where nanowires exhibit clear advantages. Atom Probe Tomography (APT) is able to provide 3 dimensional quantitative elemental distributions at atomic-resolution and is therefore unique in understanding the growth–structure–property relationships. However, the specimen preparation with nanowires is extremely challenging. In this paper, two ion beam free specimen preparation methods for APT are presented which are efficient for various nanowires. [ABSTRACT FROM AUTHOR]

Published

2015

13. Niobium–niobium oxide multilayered coatings for corrosion protection of proton-irradiated liquid water targets for [18F] production.

Author

Skliarova, Hanna, Renzelli, Marco, Azzolini, Oscar, de Felicis, Daniele, Bemporad, Edoardo, Johnson, Richard R., and Palmieri, Vincenzo

Subjects

*NIOBIUM oxide, *SURFACE coatings, *CORROSION prevention, *CRYSTAL grain boundaries, *WATER pressure

Abstract

Chemically inert coatings on Havar ® entrance foils of the targets for [ 18 F] production via proton irradiation of enriched water at pressurized conditions are needed to decrease the amount of ionic contaminants released from Havar ® . During current investigation, magnetron sputtered niobium and niobium oxide were chosen as the candidates for protective coatings because of their superior chemical resistance. Aluminated quartz substrates allowed us to verify the protection efficiency of the desirable coatings as diffusion barriers. Two modeling corrosion tests based on the extreme susceptibility of aluminum to liquid gallium and acid corrosion were applied. As far as niobium coatings obtained by magnetron sputtering are columnar, the grain boundaries provide a fast diffusion path for active species of corrosive media to penetrate and to corrode the substrate. Amorphous niobium oxide films obtained by reactive magnetron sputtering showed superior barrier properties according to the corrosion tests performed. In order to prevent degrading of brittle niobium oxide at high pressures, multilayers combining high ductility of niobium with superior diffusion barrier efficiency of niobium oxide were proposed. The intercalation of niobium oxide interlayers was proved to interrupt the columnar grain growth of niobium during sputtering, resulting in improved diffusion barrier efficiency of obtained multilayers. The thin layer multilayer coating architecture with 70 nm bi-layer thickness was found preferential because of higher thermal stability. [ABSTRACT FROM AUTHOR]

Published

2015

14. Silicon nitride and intrinsic amorphous silicon double antireflection coatings for thin-film solar cells on foreign substrates.

Author

Li, Da, Kunz, Thomas, Wolf, Nadine, Liebig, Jan Philipp, Wittmann, Stephan, Ahmad, Taimoor, Hessmann, Maik T., Auer, Richard, Göken, Mathias, and Brabec, Christoph J.

Subjects

*SILICON nitride, *ANTIREFLECTIVE coatings, *THIN films, *SOLAR cells, *BIOCHEMICAL substrates, *TRANSMISSION electron microscopy

Abstract

Hydrogenated intrinsic amorphous silicon (a-Si:H) was investigated as a surface passivation method for crystalline silicon thin film solar cells on graphite substrates. The results of the experiments, including quantum efficiency and current density–voltage measurements, show improvements in cell performance. This improvement is due to surface passivation by an a-Si:H( i ) layer, which increases the open circuit voltage and the fill factor. In comparison with our previous work, we have achieved an increase of 0.6% absolute cell efficiency for a 40 μm thick 4 cm 2 aperture area on the graphite substrate. The optical properties of the SiN x /a-Si:H( i ) stack were studied using spectroscopic ellipsometer techniques. Scanning transmission electron microscopy inside a scanning electron microscope was applied to characterize the cross section of the SiN x /a-Si:H( i ) stack using focus ion beam preparation. [ABSTRACT FROM AUTHOR]

Published

2015

15. Catalytic Nano-mobile Robot with finely designed geometry.

Author

Bao, Jingjing, Nakajima, Masahiro, Yang, Zhan, Kojima, Masaru, and Fukuda, Toshio

Abstract

In this paper, we develop the Catalytic Nano-mobile Robot (CNMR) with finely designed geometry swimming in hydrogen peroxide solution as a novel type of nano machine. First we use Focus Ion Beam (FIB) etching to fabricate the nano- mobile robot into the geometry or shape as we desire freely with little constrain. And then an effective and stable manipulation method in sub micrometer scale and liquid environment is shown to operate the fabricated nano-mobile robot. Following up the manipulation method, we get the motion trajectory and carry out the kinetic analysis of the nano-mobile robot with sophisticated geometry. To understand its unique phenomenon, we try to explain the mechanism by showing the relationship between nano-mobile robot's motion and time duration, concentration of hydrogen peroxide. [ABSTRACT FROM PUBLISHER]

Published

2012

16. Characterisation of Ga-distribution on a silicon wafer after inline FIB-preparation using inline ToFSIMS

Author

Muehle, U., Gaertner, R., Steinhoff, J., Zahn, W., Luysberg, Martina, editor, Tillmann, Karsten, editor, and Weirich, Thomas, editor

Published

2008

17. Characterization of poly- and single-crystal uranium–molybdenum alloy thin films.

Author

Adamska, A.M., Springell, R., and Scott, T.B.

Subjects

*URANIUM alloys, *SINGLE crystals, *POLYCRYSTALS, *MOLYBDENUM alloys, *METALLIC thin films, *CRYSTAL growth

Abstract

Abstract: Poly- and single-crystal thin films of U–Mo alloys have been grown both on glass and sapphire substrates by ultra-high vacuum magnetron sputtering. X-ray and Electron Backscatter Diffraction data indicate that for single-crystal U1− x Mo x alloys, the pure cubic uranium γ-phase exists for x ≥0.22 (10wt.% Mo). Below 10wt.% Mo concentration, the resulting thin film alloys exhibited a mixed α–γ uranium phase composition. [Copyright &y& Elsevier]

Published

2014

18. Micro/nanometric investigations of the effects of laser ablation in the generation of micro-tools from solid CVD diamond structures

Author

Butler-Smith, P.W., Axinte, D.A., Pacella, M., and Fay, M.W.

Subjects

*LASER ablation, *CHEMICAL vapor deposition, *DIAMOND crystals, *ELECTRON energy loss spectroscopy, *PLATINUM, *TUNGSTEN, *GRAPHITE

Abstract

Abstract: Using pulsed laser ablation, a novel method has been successfully developed for the generation of micro-features in diamond thus enabling the production of precision abrasive like micro-cutting elements into solid diamond micro-grinding tools. This paper examines the effects of the laser ablation on the generation of abrasive micro-features in diamond by using electron energy loss spectroscopy (EELS) and transmission electron microscopy (TEM). Site specific specimen preparation by a focus ion beam (FIB) material removal process has been made possible by the application of platinum and tungsten protective layers, providing the necessary specimen surface stability during the ion beam milling and lift-out operations. The prepared thin section orientated orthogonally to the cutting edge of a laser generated abrasive feature, has allowed the identification of the graphite and diamond allotropes across the ablated interface using EELS. A sequence of TEM images has revealed the extent of surface graphitisation and the high integrity of the diamond substructure. TEM examinations at nanometric resolutions have allowed the visualisation of the diamond and graphite allotropes at molecular level while depicting the abrupt graphite to diamond transition resulting in a highly defined boundary, thereby endorsing the capabilities of the laser ablation process to generate cutting edges with minimal structural damage. [Copyright &y& Elsevier]

Published

2013

19. Surface oxide analysis of lead-free solder particles.

Author

Luo, Xin, Du, Wenhui, Lu, Xiuzhen, Yamaguchi, Toshikazu, Jackson, Gavin, Ye, Li lei, and Liu, Johan

Subjects

OXIDES, LEAD-free solder, X-ray photoelectron spectroscopy, TRANSMISSION electron microscopy, SCANNING transmission electron microscopy, ATOMIC number, HUMIDITY

Abstract

Purpose – The composition and thickness of surface oxide of solder particles is extremely important to the quality of interconnect and reliability of packaged system. The purpose of this paper is to develop an observable measurement to research the issue.Design/methodology/approach – AES (Auger electron spectroscopy), XPS (X-ray photoelectron spectroscopy), TEM (transmission electron microscopy) and STEM (scanning transmission electron microscopy) were employed to examine the oxide layer on microscale solder powders. Conventional techniques and FIB (Focus Ion Beam) were employed for the TEM sample preparation. High angle annular dark field (HAADF) pattern was applied to distinguish the oxide layer and the solder matrix by the contrast of average atomic number. The results were confirmed by AES and XPS measurement. Findings – The solder powders were exposed to air (70% relative humidity) at 150°C for 0, 120 and 240 h for the accelerated growth of oxide. The surface oxide thickness was 6 nm and 50 nm measured by TEM for 0 h and 120 h samples, respectively. It was found that the increase in surface oxide thickness of solder particles is proportional to the rooting of time. The elemental distribution along the oxide was quantified by line scanning using STEM and the atomic ratio of Sn to O in the oxide layer nearer to the outer, the middle, and the inner (adjacent to the solder matrix) was found to be 1:2, 2:3 and 1:1, respectively. The result was validated using XPS which gave Sn to O ratio of 1:2 at 5 nm depth of surface oxide.Originality/value – This is the first time FIB technology has been used to prepare TEM specimens for solder particles and TEM pictures shown of their surface oxide layer. Though requiring more care in sample preparation, the measurements by TEM and STEM are believed to be more direct and precise. [ABSTRACT FROM AUTHOR]

Published

2013

20. A multi-technique approach to the characterization of iron phosphide tribofilm

Author

Philippon, D., De Barros-Bouchet, M.-I., Le Mogne, Th., Vacher, B., Lerasle, O., and Martin, J.-M.

Subjects

*IRON compounds, *THIN films, *CHEMICAL reactions, *TRANSMISSION electron microscopy, *NUCLEATION, *THICKNESS measurement

Abstract

Abstract: Tribofilms, formed by tribochemical reactions between steel surface and trimethylphosphite in gas phase, have been characterized by various structural and analytical techniques including transmission electron microscopy (TEM), X-ray photoelectron spectroscopy (XPS) and energy dispersive spectroscopy (EDS). Focus ion beam technique has been used to prepare cross-sections of the tribofilm for further TEM and EDS analyses. Cross-sectional views of tribofilms obtained by gas phase lubrication show that tribofilm has an inhomogeneous thickness ranging from 10 to 50nm and is amorphous. Complementary XPS and EDS analyses confirm the formation of various iron phosphides as the major component of the tribofilms, with a preferential nucleation of Fe3P stoichiometry at the interface between steel and tribofilm. [Copyright &y& Elsevier]

Published

2012

21. Leakage current in single electron device due to implanted gallium dopants by focus ion beam

Author

Cheam, Daw Don, Walczak, Karl A., Archaya, Manoranjan, Friedrich, Craig R., and Bergstrom, Paul L.

Subjects

*TRANSISTORS, *GALLIUM, *ELECTRONS, *ION bombardment, *QUANTUM dots, *SEMICONDUCTORS, *X-ray spectroscopy

Abstract

Abstract: Focus ion beam (FIB) technology has been employed to fabricate quantum dot based devices such as the single electron transistor (SET) on a silicon substrate with Cr/Au/Al2O3 film stack. It was discovered that the dwell time of FIB gallium beam on an area impacted the dosage of gallium ions implanted into the insulating substrate, creating a highly doped region which could lead to device leakage current. This work focus on the potential electron transport possible when an over-dosed gallium rich Al2O3 layer will lead to leakage current between otherwise electrically isolated contact pads. Using the Keithley 4200 semiconductor parametric analyzer (SPA) and the energy dispersive X-ray spectrometer (EDS) analysis; we demonstrate the detrimental effect of leakage current in the range of pA, observed between drain/source electrodes due to the high dose of gallium implanted into the insulating Al2O3. The optimized FIB etching parameters to produce a high quality of device functionality with no leakage current is also demonstrated. [Copyright &y& Elsevier]

Published

2011

22. SiC tools for reliability study

Author

A. Jaffre, J. Alvarez, T. Phulpin, M. Lazar, CentraleSupélec, Laboratoire Génie électrique et électronique de Paris (GeePs), Université Paris-Sud - Paris 11 (UP11)-CentraleSupélec-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), Lumière, nanomatériaux et nanotechnologies (L2n), Institut Charles Delaunay (ICD), Université de Technologie de Troyes (UTT)-Centre National de la Recherche Scientifique (CNRS)-Université de Technologie de Troyes (UTT)-Centre National de la Recherche Scientifique (CNRS), and ANR-10-EQPX-0037,MATMECA,MATériaux-MECAnique/Elaboration-Caractérisation-Observation-Modélisation-Simulation(2010)

Subjects

0301 basic medicine, SiC, Silicon, Computer science, failure mechanism, chemistry.chemical_element, Focus ion Beam, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Reliability (semiconductor), raman spectroscopy, Power electronics, Electronic engineering, Silicon carbide, Lock-in thermography, Diode, business.industry, Schottky diode, [SPI.TRON]Engineering Sciences [physics]/Electronics, 030104 developmental biology, Semiconductor, chemistry, MESFET, business, 030217 neurology & neurosurgery

Abstract

International audience; Understanding the failure mechanisms is essential to ensure reliability for a new technology of semiconductors. Amongst various existing tools dedicated to silicon-based devices, there is no consensual method for silicon carbide (SiC) devices. This semiconductor offers very interesting properties for power electronics in comparison with Si, but these failures are different and need to be studied. This paper will compare different methods applied to failures, focusing on lock-in thermography and micro-Raman analysis. Three devices have been evaluated, a vertical diode, a lateral diode and a MESFET.

Published

2019

23. Transpyrenean Encounter on Advanced Materials

Author

Pierre SAINT-GREGOIRE

Subjects

focus ion beam, electron holography, mems, XAS, Pb(Zn1/3Nb2/3)O3, 02 engineering and technology, 01 natural sciences, materials, sensor, STHM, thermal conductivity, membrane, Co doped ZnO, perovskite, 010302 applied physics, CuInS2, CIS, oxalate, atomic force microscopy, photonic, Crystallography, polymer assisted deposition, electrostriction, ferromagnetism, Nanodots, CZT, double molybdate, carbon nanotube fibers, Magnetoelectric, ferroelectric, Flexoelectric, antiferroelectric, correlated oxides, PLD, 0210 nano-technology, physics, phase diagrams, TTB, devices, refractory alloys, In2S3, Electronic structure, vibrational spectroscopies, energy harvesting materials, magnetic domain wall, magnetic frustration, battery electrode, methylthiophene, ZnO nanorods, electrochromic polymer, nano-thermal analysis, complex oxide, chemistry, aberration correction, REXS, photovoltaic, FIB, Piezoresponse, MPCVD, transmission electron microscopy, high temperature material, pulsed laser deposition, exciton, metastable steel, electron microscopy, biocompatible piezoelectric materials, bone growth, Poly(ProDT-carbazole), corrosion layer, tissue growth, chemical solution deposition, high pressure high temperature synthesis, electrocaloric, lead free ferroelectric, nanowire, light trapping, shot peening, thin film, scanning thermal microscopy, electrode material, Multiferroic, DFT, calcium phosphate, magnetometry, infrared thermometry, supercapacitor, epitaxial thin film, conducting polymer, ancient ceramics, ferrielectric, Optical properties, dip coating, selective laser soldering, nanoparticle, zinc oxide, biomimetic, 021001 nanoscience & nanotechnology, Cu2ZnS3, confinement in nanotube, QD901-999, Dielectric properties, oxides, electrodeposition, space applications, Aurivillius, biomaterials, crystal structure, wavelength conversion, high frequency tunability, polymer, CdTe nanocrystal, Physical and theoretical chemistry, QD450-801, antibacterial coating, HERFD-XANES, ceramics, In2O3, single nanopore, diamond, 0103 physical sciences, magnetocaloric, selective laser sintering, Lead free Materials, carbon nanotube, selective laser decomposition, power devices, Electrocaloric effect, soft matter, giant permittivity, energy storage, tough electronics, graphene, laser activation, nanostructured solar cell, solar cell, polymer nanocomposite, nanomagnetism, encapsulation, polymer electrolyte, piezoelectric, Post-lithium batteries, titanium implant, structural composite

Abstract

TEAM1 has taken place in Sete (France) on 4, 5, 6 july 2017. It has gathered a little less than 40 participants who presented communications on various fields of advanced materials, and on experimental facilities or experimental methods, that are briefly summarized in the present volume. Presented abstracts deal with fullerenes, graphene, thin films, oxides, ferroelectrics, pyroelectrics, piezoelectrics, superconductors, nanomaterials, photovoltaics, X-ray diffraction, electron diffraction, electron microscopy, electron holography, carbon nanotubes, nanorods, ZnO.

Published

2017

24. Focus Ion Beam/Scanning Electron Microscopy Characterization of Osteoclastic Resorption of Calcium Phosphate Substrates

Author

Anna Diez-Escudero, Gemma Di Pompo, Nicola Baldini, Montserrat Espanol, Gabriela Ciapetti, Edgar B. Montufar, Maria-Pau Ginebra, Universitat Politècnica de Catalunya. Departament de Ciència dels Materials i Enginyeria Metal·lúrgica, Universitat Politècnica de Catalunya. BBT - Biomaterials, Biomecànica i Enginyeria de Teixits, Istituto Ortopedico Rizzoli, Diez-Escudero, Anna, Espanol, Montserrat, Montufar, Edgar B, Di Pompo, Gemma, Ciapetti, Gabriela, Baldini, Nicola, and Ginebra, Maria-Pau

Subjects

0301 basic medicine, Calcium Phosphates, focus ion beam, Materials science, Scanning electron microscope, Biomedical Engineering, Medicine (miscellaneous), chemistry.chemical_element, Osteoclasts, Bioengineering, 02 engineering and technology, Calcium, Enginyeria dels materials [Àrees temàtiques de la UPC], Focused ion beam, calcium phosphate, Substrate Specificity, 03 medical and health sciences, bone regeneration, Osteoclast, medicine, Humans, Tissue engineering, Bone Resorption, Bone regeneration, Dissolution, Cells, Cultured, 021001 nanoscience & nanotechnology, Microstructure, Resorption, 030104 developmental biology, medicine.anatomical_structure, Durapatite, chemistry, Enginyeria de teixits, Materials biomèdics, osteoclast, Biophysics, Microscopy, Electron, Scanning, resorption, 0210 nano-technology, Fosfat de calci, Biomedical materials, scanning electron microscopy, Biomedical engineering

Abstract

This article presents the application of dual focused ion beam/scanning electron microscopy (FIB-SEM) imaging for preclinical testing of calcium phosphates with osteoclast precursor cells and how this high-resolution imaging technique is able to reveal microstructural changes at a level of detail previously not possible. Calcium phosphate substrates, having similar compositions but different microstructures, were produced using low- and high-temperature processes (biomimetic calcium-deficient hydroxyapatite [CDHA] and stoichiometric sintered hydroxyapatite, respectively). Human osteoclast precursor cells were cultured for 21 days before evaluating their resorptive potential on varying microstructural features. Alternative to classical morphological evaluation of osteoclasts (OC), FIB-SEM was used to observe the subjacent microstructure by transversally sectioning cells and observing both the cells and the substrates. Resorption pits, indicating OC activity, were visible on the smoother surface of high-temperature sintered hydroxyapatite. FIB-SEM analysis revealed signs of acidic degradation on the grain surface under the cells, as well as intergranular dissolution. No resorption pits were evident on the surface of the rough CDHA substrates. However, whereas no degradation was detected by FIB sections in the material underlying some of the cells, early stages of OC-mediated acidic degradation were observed under cells with more spread morphology. Collectively, these results highlight the potential of FIB to evaluate the resorptive activity of OC, even in rough, irregular, or coarse surfaces where degradation pits are otherwise difficult to visualize.

Published

2017

25. Controlled data storage for non-volatile memory cells embedded in nano magnetic logic

Author

Silke Boche, Stephan Breitkreutz-v. Gamm, Fabrizio Riente, Clemens Mattersdorfer, Sebastian Luber, Wolfgang Raberg, Grazvydas Ziemys, and Giovanna Turvani

Subjects

Pass transistor logic, Computer science, General Physics and Astronomy, 02 engineering and technology, 01 natural sciences, Focus Ion Beam, Nano Magnetic Logic, 0103 physical sciences, Electronic engineering, 010302 applied physics, Magnetic logic, business.industry, Sense amplifier, Focus Ion Beam, Nano Magnetic Logic, Magnetic Memories, Nucleation, Domain wall, perpendicular Nano Magnetic Logic, Magnetic Memories, Logic family, Logic level, 021001 nanoscience & nanotechnology, lcsh:QC1-999, Resistor–transistor logic, ddc, Logic gate, Computer data storage, Nucleation, perpendicular Nano Magnetic Logic, 0210 nano-technology, business, Domain wall, lcsh:Physics

Abstract

Among the beyond-CMOS technologies, perpendicular Nano Magnetic Logic (pNML) is a promising candidate due to its low power consumption, its non-volatility and its monolithic 3D integrability, which makes it possible to integrate memory and logic into the same device by exploiting the interaction of bi-stable nanomagnets with perpendicular magnetic anisotropy. Logic computation and signal synchronization are achieved by focus ion beam irradiation and by pinning domain walls in magnetic notches. However, in realistic circuits, the information storage and their read-out are crucial issues, often ignored in the exploration of beyond-CMOS devices. In this paper we address these issues by experimentally demonstrating a pNML memory element, whose read and write operations can be controlled by two independent pulsed currents. Our results prove the correct behavior of the proposed structure that enables high density memory embedded in the logic plane of 3D-integrated pNML circuits.

Published

2017

26. Tomography of Electrospun Carbon Nanotube Polymeric Blends by Focus Ion Beam: Alignment and Phase Separation Analysis from Multicontrast Electron Imaging

Author

Benjamin Berson, Douglas Yates, Wudmir Y. Rojas, Eugene M. Terentjev, Mohan Ananth, Eva M. Campo, Jorge J. Santiago-Avilés, Allen D. Winter, Terentjev, Eugene [0000-0003-3517-6578], and Apollo - University of Cambridge Repository

Subjects

focus ion beam, Nanocomposite, Materials science, Polymers and Plastics, Ion beam, General Chemical Engineering, Organic Chemistry, Nanotechnology, 02 engineering and technology, Electron, Carbon nanotube, tomography, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Electrospinning, 0104 chemical sciences, law.invention, law, nanocomposites, Materials Chemistry, Tomography, 0210 nano-technology, Focus (optics), electrospinning

Abstract

© 2017 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim. Multimodal focused ion beam (FIB) imaging on a polydimethylsiloxane/poly(methyl methacrylate) (PMMA)/multiwall carbon nanotube (MWCNT) electrospun composite has been applied to discriminate the phase-separated polymer blend and identify MWCNT fillers. Upon tomographic reconstruction, this discrimination has been possible through both atomic number and voltage contrast, the latter being enabled by preferential MWCNT segregation to PMMA. This study suggests that electrospinning could be affecting not only MWCNT alignment but also phase separation dynamics of immiscible polymers, yielding a porous structure throughout the fibers. This work opens the door to correlative materials science in polymer nanocomposites through FIB tomography, where voltage contrast is a main actor. (Figure presented.).

Published

2017

27. ZnO-Based Microcavities Sculpted by Focus Ion Beam Milling

Author

Kuo-Bin Hong, Ying-Yu Lai, Shing-Chung Wang, Yu Hsun Chou, Tien-Chang Lu, and Tsu Chi Chang

Subjects

Photoluminescence, Fabrication, Materials science, Ion beam, Nanochemistry, Physics::Optics, Cathodoluminescence, Nanotechnology, 02 engineering and technology, 01 natural sciences, Focused ion beam, Materials Science(all), 0103 physical sciences, Microdisk, Focus ion beam, General Materials Science, 010302 applied physics, Nano Express, business.industry, Condensed Matter::Other, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Whispering gallery mode, ZnO, Optoelectronics, Whispering-gallery wave, 0210 nano-technology, business, Microcavity, Lasing threshold

Abstract

We reported an easy fabrication method to realize ZnO-based microcavities with various cavity shapes by focused ion beam (FIB) milling. The optical characteristics of different shaped microcavities have been systematically carried out and analyzed. Through comprehensive studies of cathodoluminescence and photoluminescence spectra, the whispering gallery mode (WGM) was observed in different shaped microcavities. Up further increasing excitation, the lasing action was dominated by these WGMs and matched very well to the simulated results. Our experiment shows that ZnO microcavities with different shapes can be made with high quality by FIB milling for specific applications of microlight sources and optical devices.

Published

2016

28. Metodo della Rosetta Micrometrica per la misura multidirezionale degli stress residui tramite tecnologia a fascio ionico focalizzato

Author

MASSIMI, Federico, SEBASTIANI, MARCO, DE FELICIS, DANIELE, BEMPORAD, Edoardo, Massimi, Federico, Sebastiani, Marco, DE FELICIS, Daniele, and Bemporad, Edoardo

Subjects

focus ion beam, digital image correlation, residual stre

Abstract

In questo lavoro è presentato un metodo innovativo per il calcolo dello stato tensionale residuo di un materiale. Il metodo, denominato Rosetta Micrometrica (Micrometric Rosette, MR), applica i cui principi validati in precedenti pubblicazioni degli stessi autori [13, 14, 15], e consiste nell’utilizzo combinato del fascio ionico focalizzato (FIB), del microscopio elettronico a scansione (SEM) e della correlazione digitale di immagini (DIC). La tecnica consente la valutazione dello stress residuo di un materiale misurando il rilassamento dello stesso a seguito della rimozione del volume circostante che lo costringe e lo mantiene in tensione. L’implementazione del metodo, presentata in questo lavoro, consiste nella capacità di analizzare il rilassamento del materiale lungo qualsivoglia direzione nel piano della superficie del campione, e la capacità di individuarne le direzioni principali di tensione, consentendo così la valutazione completa dello stato tensionale residuo con un solo unico test di misura. La procedura è realizzata con una ripetizione ciclica di rimozione del materiale consentendo la valutazione del profilo dello stress residuo in funzione dell’affondamento. La risoluzione del gradiente è dell’ordine di 100 nm. La procedura sviluppata è semi automatizzata, grazie alla realizzazione, da parte degli stessi autori, di uno script per il continuo controllo e riallineamento degli strumenti coinvolti. Lo script permette di variare le dimensioni dell’area di materiale analizzato, il numero di cicli eseguiti, l’affondamento relativo di ogni ciclo, la numerosità e l’orientazione delle direzioni da analizzare, consentendo di adattare perfettamente la misura alle peculiarità del provino che deve essere studiato. Il metodo viene eseguito su un materiale caratterizzato da uno stato tensionale non equibiassiale, un laminato. A new method for the calculation of the residual stress state of materials is presented in this work. The method, named Micrometric Rosette (MR), applies the principles validated in previous publications by the same authors [13, 14, 15], and consists of the combined use of focused ion beam (FIB), the scanning electron microscope (SEM) and the digital correlation of images (DIC). The technique allows the evaluation of the residual stress of a material by measuring the relaxation of the same after the removal of the volume surrounding that forces him and keeps it in tension. The implementation of the method, presented in this work, consists in the ability of analyzing the relaxation of the material along any direction in the plane of the surface of the material, and the ability to identify the main directions of tension, thereby enabling the complete evaluation of the residual stress state with one and only test measurement. The measure is carried out with a cyclic repetition of removal of the material, as shown in fig 5, allowing the realization of a profile of residual stress as a function of the sinking. The resolution of the gradient is of the order of 100 nm. The developed procedure is semi-automated thanks to the implementation, by the same authors, of a script for the continuous control and realignment of the instruments. The script allows to vary the size of the area being analyzed, the number of cycles performed, the relative sinking of each cycle, the numerosity and the orientation of the directions to be analyzed, allowing to perfectly adapt the test to the peculiarities of the specimen which is to be studied. In this work the method was executed on a material characterized by a non equi biaxial stress state, a rolled sheet.

Published

2015

29. Niobium–niobium oxide multilayered coatings for corrosion protection of proton-irradiated liquid water targets for [18F] production

Author

V. Palmieri, Edoardo Bemporad, O. Azzolini, Richard R. Johnson, Marco Renzelli, Hanna Skliarova, Daniele De Felicis, Skliarova, Hanna, Renzelli, Marco, Azzolini, Oscar, DE FELICIS, Daniele, Bemporad, Edoardo, Johnson, Richard R., and Palmieri, Vincenzo

Subjects

Materials science, Diffusion barrier, Niobium, chemistry.chemical_element, engineering.material, Corrosion, Coating, Niobium oxide, Sputtering, Materials Chemistry, Focus ion beam, Composite material, Metallurgy, Metals and Alloys, Surfaces and Interfaces, Sputter deposition, X-ray diffraction, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Amorphous solid, Multilayers, chemistry, engineering, Scanning electron microscopy

Abstract

Chemically inert coatings on Havar (R) entrance foils of the targets for [F-18] production via proton irradiation of enriched water at pressurized conditions are needed to decrease the amount of ionic contaminants released from Havar (R). During current investigation, magnetron sputtered niobium and niobium oxide were chosen as the candidates for protective coatings because of their superior chemical resistance. Aluminated quartz substrates allowed us to verify the protection efficiency of the desirable coatings as diffusion barriers. Two modeling corrosion tests based on the extreme susceptibility of aluminum to liquid gallium and acid corrosion were applied. As far as niobium coatings obtained by magnetron sputtering are columnar, the grain boundaries provide a fast diffusion path for active species of corrosive media to penetrate and to corrode the substrate. Amorphous niobium oxide films obtained by reactive magnetron sputtering showed superior barrier properties according to the corrosion tests performed. In order to prevent degrading of brittle niobium oxide at high pressures, multilayers combining high ductility of niobium with superior diffusion barrier efficiency of niobium oxide were proposed. The intercalation of niobium oxide interlayers was proved to interrupt the columnar grain growth of niobium during sputtering, resulting in improved diffusion barrier efficiency of obtained multilayers. The thin layer multilayer coating architecture with 70 nm bi-layer thickness was found preferential because of higher thermal stability. (C) 2015 The Authors. Published by Elsevier B.V.

Published

2015

30. Magnetoresistance oscillations of ultrathin Pb bridges

Author

Wang, Jian, Ma, Xucun, Ji, Shuaihua, Qi, Yun, Fu, Yingshuang, Jin, Aizi, Lu, Li, Gu, Changzhi, Xie, X. C., Tian, Mingliang, Jia, Jinfeng, and Xue, Qikun

Published

2009

31. Fabrications of size-controlled SiGe nanowires using I-line lithography and focused ion beam technique

Author

Noroozi, Mohammad, Ergül, Adem, Abedin, Ahmed, Toprak, Muhammet S, Radamson, Henry, Noroozi, Mohammad, Ergül, Adem, Abedin, Ahmed, Toprak, Muhammet S, and Radamson, Henry

Abstract

In this study, a novel method using Focus Ion Beam (FIB) technique was applied to scale down Si1-xGex wires (x=0.27-0.57) to 20 nm width. Originally, the wires were processed by using Iline lithography and dry etching of SiGe on oxide (SGOI) substrates. The SGOI wafers were processed through condensation method where a SiGe/Si layer was grown in the beginning on SOI wafers and oxidized at 850-1050 °C. The shape of the nanowires (NWs) during the successive FIB cutting was examined by scanning electron microscopy (SEM) and the carrier transport through the NWs was checked by resistivity measurements. The contact resistance was reduced by Ni-silicide prior to metallization. The fabricated NWs were also suspended by tilting FIB. The results present the limitations and challenges of FIB technique to create NWs for advanced sensors and transistors., QC 20150611

Published

2014

32. A multi-technique approach to the characterization of iron phosphide tribofilm

Author

O. Lerasle, M. I. De Barros-Bouchet, Th. Le Mogne, Béatrice Vacher, Jean Michel Martin, David Philippon, Laboratoire de Mécanique des Contacts et des Structures [Villeurbanne] (LaMCoS), Institut National des Sciences Appliquées de Lyon (INSA Lyon), Université de Lyon-Institut National des Sciences Appliquées (INSA)-Université de Lyon-Institut National des Sciences Appliquées (INSA)-Centre National de la Recherche Scientifique (CNRS), Laboratoire de Tribologie et Dynamique des Systèmes (LTDS), École Centrale de Lyon (ECL), Université de Lyon-Université de Lyon-École Nationale des Travaux Publics de l'État (ENTPE)-Ecole Nationale d'Ingénieurs de Saint Etienne-Centre National de la Recherche Scientifique (CNRS), Total, Centre de recherche de Solaize, and TOTAL, Centre de recherche de Solaize (CReS)

Subjects

X-ray photoelectron spectroscopy, Materials science, Ion beam, Energy-dispersive X-ray spectroscopy, Nucleation, Analytical chemistry, 02 engineering and technology, [SPI.MAT]Engineering Sciences [physics]/Materials, chemistry.chemical_compound, 0203 mechanical engineering, Materials Chemistry, Focus ion beam, Iron phosphide, Metals and Alloys, Surfaces and Interfaces, 021001 nanoscience & nanotechnology, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Amorphous solid, 020303 mechanical engineering & transports, chemistry, Transmission electron microscopy, Tribological films, 0210 nano-technology, Stoichiometry

Abstract

International audience; Tribofilms, formed by tribochemical reactions between steel surface and trimethylphosphite in gas phase, have been characterized by various structural and analytical techniques including transmission electron microscopy (TEM), X-ray photoelectron spectroscopy (XPS) and energy dispersive spectroscopy (EDS). Focus ion beam technique has been used to prepare cross-sections of the tribofilm for further TEM and EDS analyses. Cross-sectional views of tribofilms obtained by gas phase lubrication show that tribofilm has an inhomogeneous thickness ranging from 10 to 50 nm and is amorphous. Complementary XPS and EDS analyses confirm the formation of various iron phosphides as the major component of the tribofilms, with a preferential nucleation of Fe3P stoichiometry at the interface between steel and tribofilm.

Published

2012

33. Evaluation of residual stresses in laser clad coating at the micrometer scale

Author

J.T.M. de Hosson, Vaclav Ocelik, and Ivan Furar

Subjects

Digital image correlation, Materials science, Focused ion beams, Dual-beam system, Tool steel, Electron beam guns, Residual stress, engineering.material, Integration method, Focused ion beam, Image analysis, law.invention, Fiber lasers, Residual stresses, Optics, Coating, Coatings, law, Stress release, Fiber laser, Forensic engineering, Focus ion beam, Digital image correlations, business.industry, Local strains, SEM image, Electron beams, Micrometer scale, Laser clad coating, Laser clad coatings, Cladding (fiber optics), Laser, Micro level, Stress component, Surface displacement, engineering, Coatings, Digital image correlation, Digital image correlations, Dual-beam system, Electron beam guns, Electron beams, Fiber lasers, Focused ion beams, Focus ion beam, Image analysis, Integration method, Laser clad coating, Laser clad coatings, Local strains, Materials properties, Micro level, Micrometer scale, Milling (machining), Residual stress, Residual stresses, SEM image, Strain measurement, Stress component, Stress release, Surface displacement, Tool steel, Strain measurement, Materials properties, business, Milling (machining)

Abstract

Residual stresses may have beneficial or detrimental effects to the materials properties and therefore precise knowledge and control of residual stresses are of high practical relevance. For the stress-relaxation measurement at a micro level we explored the slit milling (crack compliance) method using Focused Ion Beam (FIB) to release local strain induced by internal stresses and Digital Image Correlation (DIC) of SEM images taken before and after stress release to register it. The method allows us to measure stress components through the entire area of laser clad coating as a function of laser clad depth. We used: (i) 3.3 kW IPG fiber laser for cladding of tool steel, (ii) LYRA Tescan dual beam system with Focused Ion Beam and Electron Beam guns like milling-imaging instrument, respectively, (iii) Aramis GOM GmbH Digital Image Correlation for surface displacements registration. Finally, reducing the noise by using the appropriate magnification, facets size, resolution and by applying of integration method during collecting of SEM images we were able to increase sensitivity for lowest detectable displacement (textasciitilde lnm). © 2011 WIT Press.

Published

2011

34. Ion irradiation induced sub-100nm ferromagnetic patterns

Author

Liedke, M. O., Strache, T., Fassbender, J., Möller, W., Menéndez, E., Sort, J., Gemming, T., Weber, A., Heyderman, L. J., Rao, K. V., Deevi, S. C., and Nogués, J.

Subjects

focus ion beam, irradiation, phase transition, magnetic pattering, defects

Abstract

Focus ion beam (FIB) patterning of Fe60Al40 provides the potential to create arrays of microscopic ferromagnetic regions embedded in a paramagnetic matrix. As the consequence of low fluence irradiation such a method does not affect the surface roughness. Due to the ion damage distribution the phase transition from the chemically ordered B2-phase to the chemically disordered, ferromagnetic A2-phase is setup. The magnetic phase transformation is studied as a function of noble gases mass and is directly related to the number of displacements per atom (dpa) during ion irradiation. In case of heavy ions (Ar+, Kr+ or Xe+) the phase transformation originates purely from ballistic nature of the disordering process. For light ions (He+, Ne+) the disordering conditions deviates from the former case. The bulk vacancy diffusion from dilute collision cascades, that leads to a partial recovery of the thermodynamically favored B2-phase, plays a major role. Furthermore, by means of moderately high temperature annealing (about 900 K) the paramagnetic phase is completely recovered due to the annealing-induced atomic reordering. Therefore, local ion irradiation may lead to a novel type of patterned recording media free from tribological and exchange coupling effects.

Published

2008

35. Macromol. Mater. Eng. 8/2017.

Author

Campo, Eva M., Yates, Douglas, Berson, Benjamin, Rojas, Wudmir, Winter, Allen D., Ananth, Mohan, Santiago‐Aviles, Jorge J., and Terentjev, Eugene M.

Subjects

*MACROMOLECULES, *PUBLISHING, *ELECTROSPINNING

Abstract

Back Cover: Focus ion beam tomography reveals subsurface multiwall carbon nanotubes in electrospun fibers that have preferentially segregated to the PMMA phase in a PDMS/PMMA blend. The carbon nanotubes could not be observed in single tomograms due to their orientation. The observed contrast is attributed to electron‐induced field effects. This is reported by Eva M. Campo, Douglas Yates, Benjamin Berson, Wudmir Rojas, Allen D. Winter, Mohan Ananth, Jorge J. Santiago‐Aviles and Eugene M. Terentjev, in article number 1600479. [ABSTRACT FROM AUTHOR]

Published

2017

36. Effect of Cu and PdCu wire bonding on bond pad splash.

Author

Tan, Y.Y. and Sim, K.S.

Abstract

Cu wire bonding research has exploded exponentially in the past few years. Many studies have been carried out to understand the different behaviours of Cu wire and Au wire. One of the observations on Cu wire bonding is the excessive formation of aluminium (Al) splash on the bond pad due to a higher bond force. This leads to pad peeling and bond failure resulting in poor reliability performance of Cu and PdCu wire semiconductor devices. It is known that the Al splash is influenced by the front‐end pad metal process and back‐end wire bond process. Reported is the design of an experiment carried out to study a few factors that could influence the Al splash. The characterisation work is implemented to understand the bond pad structure using the focused ion beam (FIB) followed by a hardness test of bond pad metallisation. Then the mechanical cross‐section is taken to measure the Al splash in three different directions. The results show that Al splash can be controlled by optimising the bond pad thickness, hardness and additive for reliable Cu and PdCu wire bonding. [ABSTRACT FROM AUTHOR]

Published

2014

37. Focus Ion Beam/Scanning Electron Microscopy Characterization of Osteoclastic Resorption of Calcium Phosphate Substrates.

Author

Diez-Escudero A, Espanol M, Montufar EB, Di Pompo G, Ciapetti G, Baldini N, and Ginebra MP

Subjects

Bone Resorption diagnostic imaging, Cells, Cultured, Durapatite metabolism, Humans, Osteoclasts ultrastructure, Substrate Specificity, Bone Resorption metabolism, Calcium Phosphates metabolism, Microscopy, Electron, Scanning methods, Osteoclasts metabolism

Abstract

This article presents the application of dual focused ion beam/scanning electron microscopy (FIB-SEM) imaging for preclinical testing of calcium phosphates with osteoclast precursor cells and how this high-resolution imaging technique is able to reveal microstructural changes at a level of detail previously not possible. Calcium phosphate substrates, having similar compositions but different microstructures, were produced using low- and high-temperature processes (biomimetic calcium-deficient hydroxyapatite [CDHA] and stoichiometric sintered hydroxyapatite, respectively). Human osteoclast precursor cells were cultured for 21 days before evaluating their resorptive potential on varying microstructural features. Alternative to classical morphological evaluation of osteoclasts (OC), FIB-SEM was used to observe the subjacent microstructure by transversally sectioning cells and observing both the cells and the substrates. Resorption pits, indicating OC activity, were visible on the smoother surface of high-temperature sintered hydroxyapatite. FIB-SEM analysis revealed signs of acidic degradation on the grain surface under the cells, as well as intergranular dissolution. No resorption pits were evident on the surface of the rough CDHA substrates. However, whereas no degradation was detected by FIB sections in the material underlying some of the cells, early stages of OC-mediated acidic degradation were observed under cells with more spread morphology. Collectively, these results highlight the potential of FIB to evaluate the resorptive activity of OC, even in rough, irregular, or coarse surfaces where degradation pits are otherwise difficult to visualize.

Published

2017

38. OPTICAL STORAGE IN ERBIUM DOPED GALLIUM NITRIDE USING FOCUSED ION BEAM NANOFABRICATION

Author

Lee, Boon Kwee

Subjects

Optical Data Storage, Erbium, Gallium Nitride, Upconversion, Focus ion beam

Abstract

In this research, we propose a concept for a high-density, page-oriented data storage using optical upconversion emission from erbium doped gallium nitride (GaN:Er). This alternative storage design is based on nonlinear optical process of rare earth (RE) doped in wide bandgap semiconductor host. Data is recorded with focused ion beam (FIB) write technology and retried as amplitude modulated signal by detecting the incoherent upconversion emission. Writing process with FIB could be implemented with either ion implantation or ion milling approach. With ion implantation approach, Er ions were implanted by FIB into undoped GaN thin film grown on sapphire or silicone (Si) substrates. Thermal annealing process was applied next to activate the optical properties of implanted Er ions. Information stored as data bits consists of patterns of implanted locations as logic '1' and unimplanted locations as logic '0'. The photon upconversion process in Er ions is utilized to read the stored nformation. This process makes use of infrared (IR) lasers (840 nm and 1 µm) to excite visible emission (522 and 546 nm). Patterns as small as 0.5 µm were implanted and read. Volumetric optical memory based on GaN:Er semiconductors could in theory approach storage capacity of 1012 bits/cm 3 . With ion milling approach, sub-micron patterns were micro-machined on MBE grown in-situ doped GaN:Er film on Si substrate. Data retrieval is accompanied by upconversion emission at 535 and 556 nm upon 1 µm IR laser stimulation. Regions where Er-doped GaN layer is completely removed (and do not emit) are defined as logic '0', while regions that are not milled (and do emit) are defined as logic '1'. Data patterns with sub-micron bit size (or 100 Mbits/cm 2 density) have been fabricated by FIB milling. Data written by this approach has a theoretical storage capacity approaching 10 Gbits/cm 2 . Our implementation of this proposed optical storage architecture takes advantage of capabilities that is available in the Nanoelectronics Laboratory such as, non-optical recording technique with FIB implantation or milling, liquid alloy ion source fabrication, epitaxial growth of GaN films by molecular beam epitaxy, upconversion optical readout set-up, and visible to IR optical characterization.

Published

2001

39. Single nanoparticle couplers for plasmonic waveguides.

Author

Zhang S, Gu C, and Xu H

Abstract

A single nanoparticle antenna, can be used as an efficient coupler for plasmonic nanowire waveguides. The coup-ling of light into the surface plasmon polaritons on a nanowire can be suppressed or enhanced depending on the surface plasmon resonances of the nanoantenna. The coupler is compacted and can be simply controlled using focus ion beam., (© 2014 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2014

40. Ultrastructural analysis of implant-soft tissue interface on a three dimensional tissue-engineered oral mucosal model.

Author

Chai WL, Brook IM, Emanuelsson L, Palmquist A, van Noort R, and Moharamzadeh K

Subjects

Humans, Microscopy, Electron, Scanning, Microscopy, Electron, Transmission, Models, Biological, Mouth Mucosa drug effects, Titanium pharmacology, Dental Implants, Imaging, Three-Dimensional, Mouth Mucosa ultrastructure, Tissue Engineering

Abstract

A three dimensional tissue-engineered human oral mucosal model (3D OMM) used in the investigation of implant-soft tissue interface was recently reported. The aim of this study was to examine the ultrastructural features of soft tissue attachment to various titanium (Ti) implant surfaces based on the 3D OMM. Two techniques, that is, focus ion beam (FIB) and electropolishing techniques were used to prepare specimens for transmission electron microscopic (TEM) analysis of the interface. The 3D OM consisting of both epithelial and connective tissue layers was constructed by co-culturing human oral keratinocytes and fibroblasts onto an acellular dermis scaffold. Four types of Ti surface topographies were tested: polished, machined (turned), sandblasted, and TiUnite. The specimens were then processed for TEM examination using FIB (Ti remained) and electropolishing (Ti removed) techniques. The FIB sections showed some artifact and lack of details of ultrastructural features. In contrast, the ultrathin sections prepared from the electropolishing technique showed a residual Ti oxide layer, which preserved the details for intact ultrastructural interface analysis. There was evidence of hemidesmosome-like structures at the interface on the four types of Ti surfaces, which suggests that the tissue-engineered oral mucosa formed epithelial attachments on the Ti surfaces., (Copyright © 2011 Wiley Periodicals, Inc.)

Published

2012

41. Design elektronového mikroskopu

Author

Škaroupka, David, Surman, Martin, Švajdová, Anna, Škaroupka, David, Surman, Martin, and Švajdová, Anna

Abstract

Tématem diplomové práce je design skenovacího elektronového mikroskopu s fokusovaným iontovým svazkem. Práce se zabývá řešením designu krytů mikroskopu a přilehlého pracoviště operátora pro společnost Tescan Orsay Holding a.s.. Design je řešen jako první návrh směřující k budoucímu inovování designu celé produktové řady., The theme of this diploma thesis is the design of a scanning electron microscope with a focused ion beam. Specifically, the thesis is focused on the design of the microscope covers and the adjacent workplace of the operator for Tescan Orsay Holding a.s.. Design is solved as the first proposal aimed at future innovation of the design of the entire product line.

42. Design elektronového mikroskopu

Author

Škaroupka, David, Surman, Martin, Švajdová, Anna, Škaroupka, David, Surman, Martin, and Švajdová, Anna

Abstract

Tématem diplomové práce je design skenovacího elektronového mikroskopu s fokusovaným iontovým svazkem. Práce se zabývá řešením designu krytů mikroskopu a přilehlého pracoviště operátora pro společnost Tescan Orsay Holding a.s.. Design je řešen jako první návrh směřující k budoucímu inovování designu celé produktové řady., The theme of this diploma thesis is the design of a scanning electron microscope with a focused ion beam. Specifically, the thesis is focused on the design of the microscope covers and the adjacent workplace of the operator for Tescan Orsay Holding a.s.. Design is solved as the first proposal aimed at future innovation of the design of the entire product line.

43. Příprava metastabilních vrstev železa pro magnetické metamateriály

Author

Urbánek, Michal, Man, Ondřej, Holobrádek, Jakub, Urbánek, Michal, Man, Ondřej, and Holobrádek, Jakub

Abstract

Magnetické nanostruktury mají zajímavé vlastnosti, které umožňují jejich aplikace v základním výzkumu i průmyslu. Jednou z těchto vědeckých disciplín je i magnonika - výzkumný obor, který se zabývá fyzikou spinových vln, které lze použít v nediskrétních výpočtech s nízkými ztrátami energie. Výroba magnetických struktur fokusovaným iontovým svazkem (FIB) je alternativní metoda k běžně používaným litografickým metodám. Materiál použitý v této práci - metastabilní železo - je schopen při ozáření iontovým svazkem podstoupit fázovou transformaci z paramagnetické plošně centrované kubické krystalové struktury na feromagnetickou fázi s prostorově centrovanou kubickou krystalovou strukturou. Jednou z vlastností, která ovlivňuje šíření spinových vlny, je magnetická anizotropie. Tato práce představuje vliv depozičních podmínek v ultra vysokém vakuu během přípravy metastabilní železné vrstvy na magnetickou anizotropii struktur vytvořených pomocí FIB do tohoto filmu. Dále prezentujeme souvislosti mezi parametry FIB, krystalografickými vlastnostmi výsledných struktur a jejich magnetickou anizotropií., Magnetic nanostructures are widely investigated for applications in industrial and fundamental research thanks to their interesting properties. One of the concerned scientific disciplines is magnonics – a novel research topic in magnetism concerned with the physics of spin waves, which can be used for fabrication of novel devices for wave-based computing with low power consumption. Fabrication of magnonic structures by a focused ion beam (FIB) is an alternative method to the commonly used lithographic methods. The material used in this work -- metastable iron – is able to undergo an ion-beam-induced phase transformation from a paramagnetic fcc to a ferromagnetic bcc phase. One of the properties, which affect the spin-wave propagation, is magnetic anisotropy. This thesis presents the influence of UHV conditions during the deposition of the metastable iron film on the magnetic anisotropy of the structures fabricated via FIB into this film. We also investigate the relationship between FIB parameters, crystallographic properties of the resulting structures, and their magnetic anisotropy.

44. Design elektronového mikroskopu

Author

Škaroupka, David, Surman, Martin, Švajdová, Anna, Škaroupka, David, Surman, Martin, and Švajdová, Anna

Abstract

Tématem diplomové práce je design skenovacího elektronového mikroskopu s fokusovaným iontovým svazkem. Práce se zabývá řešením designu krytů mikroskopu a přilehlého pracoviště operátora pro společnost Tescan Orsay Holding a.s.. Design je řešen jako první návrh směřující k budoucímu inovování designu celé produktové řady., The theme of this diploma thesis is the design of a scanning electron microscope with a focused ion beam. Specifically, the thesis is focused on the design of the microscope covers and the adjacent workplace of the operator for Tescan Orsay Holding a.s.. Design is solved as the first proposal aimed at future innovation of the design of the entire product line.

45. Příprava metastabilních vrstev železa pro magnetické metamateriály

Author

Urbánek, Michal, Man, Ondřej, Holobrádek, Jakub, Urbánek, Michal, Man, Ondřej, and Holobrádek, Jakub

Abstract

Magnetické nanostruktury mají zajímavé vlastnosti, které umožňují jejich aplikace v základním výzkumu i průmyslu. Jednou z těchto vědeckých disciplín je i magnonika - výzkumný obor, který se zabývá fyzikou spinových vln, které lze použít v nediskrétních výpočtech s nízkými ztrátami energie. Výroba magnetických struktur fokusovaným iontovým svazkem (FIB) je alternativní metoda k běžně používaným litografickým metodám. Materiál použitý v této práci - metastabilní železo - je schopen při ozáření iontovým svazkem podstoupit fázovou transformaci z paramagnetické plošně centrované kubické krystalové struktury na feromagnetickou fázi s prostorově centrovanou kubickou krystalovou strukturou. Jednou z vlastností, která ovlivňuje šíření spinových vlny, je magnetická anizotropie. Tato práce představuje vliv depozičních podmínek v ultra vysokém vakuu během přípravy metastabilní železné vrstvy na magnetickou anizotropii struktur vytvořených pomocí FIB do tohoto filmu. Dále prezentujeme souvislosti mezi parametry FIB, krystalografickými vlastnostmi výsledných struktur a jejich magnetickou anizotropií., Magnetic nanostructures are widely investigated for applications in industrial and fundamental research thanks to their interesting properties. One of the concerned scientific disciplines is magnonics – a novel research topic in magnetism concerned with the physics of spin waves, which can be used for fabrication of novel devices for wave-based computing with low power consumption. Fabrication of magnonic structures by a focused ion beam (FIB) is an alternative method to the commonly used lithographic methods. The material used in this work -- metastable iron – is able to undergo an ion-beam-induced phase transformation from a paramagnetic fcc to a ferromagnetic bcc phase. One of the properties, which affect the spin-wave propagation, is magnetic anisotropy. This thesis presents the influence of UHV conditions during the deposition of the metastable iron film on the magnetic anisotropy of the structures fabricated via FIB into this film. We also investigate the relationship between FIB parameters, crystallographic properties of the resulting structures, and their magnetic anisotropy.

46. Design elektronového mikroskopu

Author

Škaroupka, David, Surman, Martin, Škaroupka, David, and Surman, Martin

Abstract

Tématem diplomové práce je design skenovacího elektronového mikroskopu s fokusovaným iontovým svazkem. Práce se zabývá řešením designu krytů mikroskopu a přilehlého pracoviště operátora pro společnost Tescan Orsay Holding a.s.. Design je řešen jako první návrh směřující k budoucímu inovování designu celé produktové řady., The theme of this diploma thesis is the design of a scanning electron microscope with a focused ion beam. Specifically, the thesis is focused on the design of the microscope covers and the adjacent workplace of the operator for Tescan Orsay Holding a.s.. Design is solved as the first proposal aimed at future innovation of the design of the entire product line.

47. Příprava metastabilních vrstev železa pro magnetické metamateriály

Author

Urbánek, Michal, Man, Ondřej, Urbánek, Michal, and Man, Ondřej

Abstract

Magnetické nanostruktury mají zajímavé vlastnosti, které umožňují jejich aplikace v základním výzkumu i průmyslu. Jednou z těchto vědeckých disciplín je i magnonika - výzkumný obor, který se zabývá fyzikou spinových vln, které lze použít v nediskrétních výpočtech s nízkými ztrátami energie. Výroba magnetických struktur fokusovaným iontovým svazkem (FIB) je alternativní metoda k běžně používaným litografickým metodám. Materiál použitý v této práci - metastabilní železo - je schopen při ozáření iontovým svazkem podstoupit fázovou transformaci z paramagnetické plošně centrované kubické krystalové struktury na feromagnetickou fázi s prostorově centrovanou kubickou krystalovou strukturou. Jednou z vlastností, která ovlivňuje šíření spinových vlny, je magnetická anizotropie. Tato práce představuje vliv depozičních podmínek v ultra vysokém vakuu během přípravy metastabilní železné vrstvy na magnetickou anizotropii struktur vytvořených pomocí FIB do tohoto filmu. Dále prezentujeme souvislosti mezi parametry FIB, krystalografickými vlastnostmi výsledných struktur a jejich magnetickou anizotropií., Magnetic nanostructures are widely investigated for applications in industrial and fundamental research thanks to their interesting properties. One of the concerned scientific disciplines is magnonics – a novel research topic in magnetism concerned with the physics of spin waves, which can be used for fabrication of novel devices for wave-based computing with low power consumption. Fabrication of magnonic structures by a focused ion beam (FIB) is an alternative method to the commonly used lithographic methods. The material used in this work -- metastable iron – is able to undergo an ion-beam-induced phase transformation from a paramagnetic fcc to a ferromagnetic bcc phase. One of the properties, which affect the spin-wave propagation, is magnetic anisotropy. This thesis presents the influence of UHV conditions during the deposition of the metastable iron film on the magnetic anisotropy of the structures fabricated via FIB into this film. We also investigate the relationship between FIB parameters, crystallographic properties of the resulting structures, and their magnetic anisotropy.

48. Příprava metastabilních vrstev železa pro magnetické metamateriály

Author

Urbánek, Michal, Man, Ondřej, Urbánek, Michal, and Man, Ondřej

Abstract

Magnetické nanostruktury mají zajímavé vlastnosti, které umožňují jejich aplikace v základním výzkumu i průmyslu. Jednou z těchto vědeckých disciplín je i magnonika - výzkumný obor, který se zabývá fyzikou spinových vln, které lze použít v nediskrétních výpočtech s nízkými ztrátami energie. Výroba magnetických struktur fokusovaným iontovým svazkem (FIB) je alternativní metoda k běžně používaným litografickým metodám. Materiál použitý v této práci - metastabilní železo - je schopen při ozáření iontovým svazkem podstoupit fázovou transformaci z paramagnetické plošně centrované kubické krystalové struktury na feromagnetickou fázi s prostorově centrovanou kubickou krystalovou strukturou. Jednou z vlastností, která ovlivňuje šíření spinových vlny, je magnetická anizotropie. Tato práce představuje vliv depozičních podmínek v ultra vysokém vakuu během přípravy metastabilní železné vrstvy na magnetickou anizotropii struktur vytvořených pomocí FIB do tohoto filmu. Dále prezentujeme souvislosti mezi parametry FIB, krystalografickými vlastnostmi výsledných struktur a jejich magnetickou anizotropií., Magnetic nanostructures are widely investigated for applications in industrial and fundamental research thanks to their interesting properties. One of the concerned scientific disciplines is magnonics – a novel research topic in magnetism concerned with the physics of spin waves, which can be used for fabrication of novel devices for wave-based computing with low power consumption. Fabrication of magnonic structures by a focused ion beam (FIB) is an alternative method to the commonly used lithographic methods. The material used in this work -- metastable iron – is able to undergo an ion-beam-induced phase transformation from a paramagnetic fcc to a ferromagnetic bcc phase. One of the properties, which affect the spin-wave propagation, is magnetic anisotropy. This thesis presents the influence of UHV conditions during the deposition of the metastable iron film on the magnetic anisotropy of the structures fabricated via FIB into this film. We also investigate the relationship between FIB parameters, crystallographic properties of the resulting structures, and their magnetic anisotropy.

49. Design elektronového mikroskopu

Author

Škaroupka, David, Surman, Martin, Škaroupka, David, and Surman, Martin

Abstract

Tématem diplomové práce je design skenovacího elektronového mikroskopu s fokusovaným iontovým svazkem. Práce se zabývá řešením designu krytů mikroskopu a přilehlého pracoviště operátora pro společnost Tescan Orsay Holding a.s.. Design je řešen jako první návrh směřující k budoucímu inovování designu celé produktové řady., The theme of this diploma thesis is the design of a scanning electron microscope with a focused ion beam. Specifically, the thesis is focused on the design of the microscope covers and the adjacent workplace of the operator for Tescan Orsay Holding a.s.. Design is solved as the first proposal aimed at future innovation of the design of the entire product line.

50. Příprava metastabilních vrstev železa pro magnetické metamateriály

Author

Urbánek, Michal, Man, Ondřej, Urbánek, Michal, and Man, Ondřej

Abstract

Magnetické nanostruktury mají zajímavé vlastnosti, které umožňují jejich aplikace v základním výzkumu i průmyslu. Jednou z těchto vědeckých disciplín je i magnonika - výzkumný obor, který se zabývá fyzikou spinových vln, které lze použít v nediskrétních výpočtech s nízkými ztrátami energie. Výroba magnetických struktur fokusovaným iontovým svazkem (FIB) je alternativní metoda k běžně používaným litografickým metodám. Materiál použitý v této práci - metastabilní železo - je schopen při ozáření iontovým svazkem podstoupit fázovou transformaci z paramagnetické plošně centrované kubické krystalové struktury na feromagnetickou fázi s prostorově centrovanou kubickou krystalovou strukturou. Jednou z vlastností, která ovlivňuje šíření spinových vlny, je magnetická anizotropie. Tato práce představuje vliv depozičních podmínek v ultra vysokém vakuu během přípravy metastabilní železné vrstvy na magnetickou anizotropii struktur vytvořených pomocí FIB do tohoto filmu. Dále prezentujeme souvislosti mezi parametry FIB, krystalografickými vlastnostmi výsledných struktur a jejich magnetickou anizotropií., Magnetic nanostructures are widely investigated for applications in industrial and fundamental research thanks to their interesting properties. One of the concerned scientific disciplines is magnonics – a novel research topic in magnetism concerned with the physics of spin waves, which can be used for fabrication of novel devices for wave-based computing with low power consumption. Fabrication of magnonic structures by a focused ion beam (FIB) is an alternative method to the commonly used lithographic methods. The material used in this work -- metastable iron – is able to undergo an ion-beam-induced phase transformation from a paramagnetic fcc to a ferromagnetic bcc phase. One of the properties, which affect the spin-wave propagation, is magnetic anisotropy. This thesis presents the influence of UHV conditions during the deposition of the metastable iron film on the magnetic anisotropy of the structures fabricated via FIB into this film. We also investigate the relationship between FIB parameters, crystallographic properties of the resulting structures, and their magnetic anisotropy.