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1. Propagation of Interplanetary Shocks in the Heliosphere

Author

Lkhagvadorj, Munkhjargal, Facsko, Gabor, Opitz, Andrea, Kovacs, Peter, and Sibeck, David G.

Subjects
Physics - Space Physics
Abstract

Interplanetary shocks are one of the crucial dynamic phenomena in the Heliosphere. They accelerate particles to high energies, generate plasma waves, and can trigger geomagnetic storms in the terrestrial magnetosphere disturbing significantly our technological infrastructures. In this study, two IP shock events are selected to study the temporal variations of the shock parameters using magnetometer and ion plasma measurements of the STEREO$-$A and B, the Wind, Cluster fleet, and the ACE spacecraft. The shock normal vectors are determined using the minimum variance analysis (MVA) and the magnetic coplanarity methods. During the May 7, 2007 event, the shock parameters and the shock normal direction are consistent. The shock surface appears to be tilted almost the same degree as the Parker spiral, and the driver could be a Co--Rotating Interacting Region (CIR). During the April 23, 2007 event, the shock parameters do not change significantly except for the shock $\theta_{Bn}$ angle, however, the shape of the IP shock appears to be twisted along the perpendicular direction to the Sun-Earth line as well. The driver of this rippled shock is Stream Interaction Regions (SIRs)/CISs as well., Comment: 31 pages, 14 figures, 6 table, submitted to the Astrophysical Journal on July 17, 2024. arXiv admin note: substantial text overlap with arXiv:2307.03328

Published
2024

2. Ultralong-term high-density data storage with atomic defects in SiC

Author

Hollenbach, M., Kasper, C., Erb, D., Bischoff, L., Hlawacek, G., Kraus, H., Kada, W., Ohshima, T., Helm, M., Facsko, S., Dyakonov, V., and Astakhov, G. V.

Subjects
Condensed Matter - Materials Science
Abstract

There is an urgent need to increase the global data storage capacity, as current approaches lag behind the exponential growth of data generation driven by the Internet, social media and cloud technologies. In addition to increasing storage density, new solutions should provide long-term data archiving that goes far beyond traditional magnetic memory, optical disks and solid-state drives. Here, we propose a concept of energy-efficient, ultralong, high-density data archiving based on optically active atomic-size defects in a radiation resistance material, silicon carbide (SiC). The information is written in these defects by focused ion beams and read using photoluminescence or cathodoluminescence. The temperature-dependent deactivation of these defects suggests a retention time minimum over a few generations under ambient conditions. With near-infrared laser excitation, grayscale encoding and multi-layer data storage, the areal density corresponds to that of Blu-ray discs. Furthermore, we demonstrate that the areal density limitation of conventional optical data storage media due to the light diffraction can be overcome by focused electron-beam excitation., Comment: 8 pages, 4 figures

Published
2023
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3. Comparing 1-year GUMICS-4 simulations of the Terrestrial Magnetosphere with Cluster Measurements

Author

Facsko, Gabor, Sibeck, David, Honkonen, Ilja, Bor, Jozsef, Perez, German Farinas, Timar, Aniko, Shprits, Yuri, Peitso, Pyry, Degener, Laura, Tanskanen, Eija, Anekallu, Chandrasekhar Reddy, Szalai, Sandor, Kis, Arpad, Wesztergom, Viktor, Madar, Akos, Biro, Nikolett, Koban, Gergely, Illyes, Andras, Kovacs, Peter, Dalya, Zsuzsanna, and Lkhagvadorj, Munkhjargal

Subjects
Physics - Space Physics
Abstract

We compare the predictions of the GUMICS$-$4 global magnetohydrodynamic model for the interaction of the solar wind with the Earth's magnetosphere with Cluster~SC3 measurements for over one year, from January 29, 2002, to February 2, 2003. In particular, we compare model predictions with the north/south component of the magnetic field ($B_{z}$) seen by the magnetometer, the component of the velocity along the Sun-Earth line ($V_{x}$), and the plasma density as determined from a top hat plasma spectrometer and the spacecraft's potential from the electric field instrument. We select intervals in the solar wind, the magnetosheath, and the magnetosphere where these instruments provided good-quality data, and the model correctly predicted the region in which the spacecraft is located. We determine the location of the bow shock, the magnetopause, and the neutral sheet from the spacecraft measurements and compare these locations to those predicted by the simulation. The GUMICS$-$4 model agrees well with the measurements in the solar wind however its accuracy is worse in the magnetosheath. The simulation results are not realistic in the magnetosphere. The bow shock location is predicted well, however, the magnetopause location is less accurate. The neutral sheet positions are located quite accurately thanks to the special solar wind conditions when the $B_{y}$ component of the interplanetary magnetic field is small., Comment: submitted to the AGU Space Weather, 51 pages, 19 figures, 8 tables

Published
2023
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4. Space Weather Effects on Critical Infrastructure

Author

Facsko, Gabor, Koban, Gergely, Biro, Nikolett, and Lkhagvadorj, Munkhjargal

Subjects
Physics - Space Physics
Abstract

Gas pipelines, transmission lines, overhead wires, transformers, GNSS navigation, and telecommunication systems are part of critical infrastructure. Industry, transportation, service operations, farming, and everyday life highly depend on this infrastructure. However, these systems are very sensitive to solar activity. Therefore, all activities above are vulnerable and defenseless against the catastrophic changes in Earth's cosmic environment. The Solar System is dominated by the influence of our star. A small fraction of the energy produced in the core of our star turns into a magnetic field and emits the constant high-velocity flow, the solar wind. Solar magnetic activity produces radiation and ejects matter from the upper atmosphere of our star. The magnetic field of the solar wind interacts with the planetary magnetic fields and atmospheres. These phenomena, called Space Weather have a serious influence on the radiation environment of Earth where telecommunication, Global Navigation Satellite System, meteorological, and other purpose satellites are located. The conductivity and transparency of the higher partly ionized atmospheric layer, the ionosphere also depend on solar radiation and activity. This fact makes the navigation and communication systems dependent on solar activity. Finally, the solar magnetic activity creates magnetic variations in the terrestrial magnetic field and induces currents in gas pipelines, transmission lines, overhead wires, and transformers. In this short briefing, we introduce the solar activity phenomena, and their influence on our planet's cosmic neighborhood and provide a detailed description of the Space Weather effects on critical infrastructure. We describe the Hungarian national and global space weather forecast centers and capabilities. Finally, we share some guidelines on how to prepare for extreme space weather events., Comment: accepted paper to a conference proceedings of the 4th International Conference on Central European Critical Infrastructure Protection held from November 17 to 18, 2022 in Budapest, Hungary, 10 pages, 3 figures

Published
2023

5. An intermediate morphology in the patterning of the crystalline Ge(001) surface induced by ion irradiation

Author

Erb, Denise J., Pearson, Daniel A., Škereň, Tomáš, Engler, Martin, Bradley, R. Mark, and Facsko, Stefan

Subjects
Condensed Matter - Materials Science
Abstract

We investigate the morphologies of the Ge(001) surface that are produced by bombardment with a normally incident, broad argon ion beam at sample temperatures above the recrystallization temperature. Two previously-observed kinds of topographies are seen, i.e., patterns consisting of upright and inverted rectangular pyramids, as well as patterns composed of shallow, isotropic basins. In addition, we observe the formation of an unexpected third type of pattern for intermediate values of the temperature, ion energy and ion flux. In this type of intermediate morphology, isolated peaks with rectangular cross sections stand above a landscape of shallow, rounded basins. We also extend past theoretical work to include a second order correction term that comes from the curvature dependence of the sputter yield. For a range of parameter values, the resulting continuum model of the surface dynamics produces patterns that are remarkably similar to the intermediate morphologies we observe in our experiments. The formation of the isolated peaks is the result of a term that is not ordinarily included in the equation of motion, a second order correction to the curvature dependence of the sputter yield.

Published
2023

6. Space Weather Effects on Critical Infrastructure

Author

Facskó, Gábor, Koban, Gergely, Biró, Nikolett, Lkhagvadorj, Munkhjargal, Masys, Anthony J., Editor-in-Chief, Bichler, Gisela, Advisory Editor, Bourlai, Thirimachos, Advisory Editor, Johnson, Chris, Advisory Editor, Karampelas, Panagiotis, Advisory Editor, Leuprecht, Christian, Advisory Editor, Morse, Edward C., Advisory Editor, Skillicorn, David, Advisory Editor, Yamagata, Yoshiki, Advisory Editor, Kovács, Tünde Anna, editor, Nyikes, Zoltán, editor, Berek, Tamás, editor, Daruka, Norbert, editor, and Tóth, László, editor

Published
2024
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8. Measurement of Ehrlich-Schwoebel barrier contribution to the self-organized formation of ordered surface patterns on Ge(001)

Author

Myint, Peco, Erb, Denise, Zhang, Xiaozhi, Wiegart, Lutz, Zhang, Yugang, Fluerasu, Andrei, Headrick, Randall L., Facsko, Stefan, and Ludwig, Jr, Karl F.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Normal incidence 1 keV Ar$^+$ ion bombardment leads to amorphization and ultrasmoothing of Ge at room temperature, but at elevated temperatures the Ge surface remains crystalline and is unstable to the formation of self-organized nanoscale patterns of ordered pyramid-shaped pits. The physical phenomenon distinguishing the high temperature patterning from room temperature ultrasmoothing is believed to be a surface instability due to the Ehrlich-Schwoebel barrier for diffusing vacancies and adatoms, which is not present on the amorphous material. This real-time GISAXS study compares smoothing of a pre-patterned Ge sample at room temperature with patterning of an initially flat Ge sample at an elevated temperature. In both experiments, when the nanoscale structures are relatively small in height, the average kinetics can be explained by a linear theory. The linear theory coefficients, indicating surface stability or instability, were extracted for both experiments. A comparison between the two measurements allows estimation of the contribution of the Ehrlich-Schwoebel barrier to the self-organized formation of ordered nanoscale patterns on crystalline Ge surfaces., Comment: 5 pages, 5 figures. arXiv admin note: text overlap with arXiv:2007.12294, arXiv:2007.12253

Published
2020
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9. Site-controlled formation of single Si nanocrystals in a buried SiO2 matrix using ion beam mixing

Author

Xu, Xiaomo, Prüfer, Thomas, Wolf, Daniel, Engelmann, Hans-Jürgen, Bischoff, Lothar, Hübner, René, Heinig, Karl-Heinz, Möller, Wolfhard, Facsko, Stefan, von Borany, Johannes, and Hlawacek, Gregor

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Applied Physics
Abstract

For future nanoelectronic devices - such as room-temperature single electron transistors - the site-controlled formation of single Si nanocrystals (NCs) is a crucial prerequisite. Here, we report an approach to fabricate single Si NCs via medium-energy Si+ or Ne+ ion beam mixing of Si into a buried SiO2 layer followed by thermally activated phase separation. Binary collision approximation and kinetic Monte Carlo methods are conducted to gain atomistic insight into the influence of relevant experimental parameters on the Si NC formation process. Energy-filtered transmission electron microscopy is performed to obtain quantitative values on the Si NC size and distribution in dependence of the layer stack geometry, ion fluence and thermal budget. Employing a focused Ne+ beam from a helium ion microscope, we demonstrate site-controlled self-assembly of single Si NCs. Line irradiation with a fluence of 3000 Ne+/nm2 and a line width of 4 nm leads to the formation of a chain of Si NCs, and a single NC with 2.2 nm diameter is subsequently isolated and visualized in a few nanometer thin lamella prepared by a focused ion beam (FIB). The Si NC is centered between the SiO2 layers and perpendicular to the incident Ne+ beam., Comment: 10 pages, 6 figures

Published
2019
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11. Comments on 'Cavitons and spontaneous hot flow anomalies in a hybrid-Vlasov global magnetospheric simulation' by Blanco-Cano et al. (2018)

Author

Facskó, Gábor

Subjects
Physics - Space Physics
Abstract

Blanco-Cano et al. (2018) intended to find a type of transient event in the solar wind before the terrestrial bow shock using a special type of simulation. However, the simulation results cannot reproduce the main features of the event. Based on the remarks described below, I am sure that the features in the simulations are not those type of events. The VLASIATOR code simulated proto-SHFAs., Comment: Accepted comment paper; 3 pages; Original research paper: https://www.ann-geophys.net/36/1081/2018/; Comment paper: https://www.ann-geophys-discuss.net/angeo-2019-6/

Published
2019
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12. Curvilinear Magnetic Shells

Author

Sheka, Denis D., Kravchuk, Volodymyr P., Peddis, Davide, Varvaro, Gaspare, Krupiński, Michał, Albrecht, Manfred, Erb, Denise, Facsko, Stefan, Makarov, Denys, Lee, Young Pak, Series Editor, Lockwood, David J., Series Editor, Ossi, Paolo M., Series Editor, Yamanouchi, Kaoru, Series Editor, Makarov, Denys, editor, and Sheka, Denis D., editor

Published
2022
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14. A global study of hot flow anomalies using Cluster multi-spacecraft measurements

Author

Facsko, Gabor, Nemeth, Zoltan, Erdos, Geza, Kis, Arpad, and Dandouras, Iannis

Subjects
Physics - Space Physics
Abstract

Hot flow anomalies (HFAs) are studied using observations of the magnetometer and the plasma instrument aboard the four Cluster spacecraft. We study several specific features of tangential discontinuities on the basis of Cluster measurements from the time periods of February-April 2003, December 2005-April 2006 and January-April 2007, when the separation distance of spacecraft was large. The previously discovered condition (Facsko et al., 2008) for forming HFAs is confirmed, i.e. that the solar wind speed and fast magnetosonic Mach number values are higher than average. Furthermore, this constraint is independent of the Schwartz et al. (2000)s condition for HFA formation. The existence of this new condition is confirmed by simultaneous ACE magnetic field and solar wind plasma observations at the L1 point, at 1.4 million km distance from the Earth. The temperature, particle density and pressure parameters observed at the time of HFA formation are also studied and compared to average values of the solar wind plasma. The size of the region affected by the HFA was estimated by using two different methods. We found that the size is mainly influenced by the magnetic shear and the angle between the discontinuity normal and the Sun-Earth direction. The size grows with the shear and (up to a certain point) with the angle as well. After that point it starts decreasing. The results are compared with the outcome of recent hybrid simulations., Comment: 20 pages, 12 figure, published in 2009

Published
2018
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15. Study of hot flow anomalies using Cluster multi-spacecraft measurements

Author

Facsko, Gabor, Trotignon, Jean-Gabriel, Dandouras, Iannis, Lucek, Elisabeth A., and Daly, Patrick W.

Subjects
Physics - Space Physics
Abstract

Hot flow anomalies (HFAs) were first discovered in the early 1980s at the bow shock of the Earth. In the 1990s these features were studied, observed and simulated very intensively and many new missions focused the attention to this phenomenon again. Many basic features and the HFA formation mechanism were clarified observationally and using hybrid simulation techniques. We described previous observational, theoretical and simulation results in the research field of HFAs. We introduced HFA observations performed at the Earth, Mars, Venus and Saturn in this paper. We share different observation results of space mission to give an overview to the reader. Cluster multi-spacecraft measurements gave us more observed HFA events and finer, more sophisticated methods to understand them better. In this study, HFAs were studied using observations of the Cluster magnetometer and the Cluster plasma detector aboard the four Cluster spacecraft. Energetic particle measurements (28.2-68.9 keV) were also used to detect and select HFAs. We studied several specific features of tangential discontinuities generating HFAs on the basis of Cluster measurements in the period February-April 2003, December 2005-April 2006 and January-April, 2007, when the separation of spacecraft was large and the Cluster fleet reached the bow shock. We have confirmed the condition for forming HFAs, that the solar wind speed is higher than the average. This condition was also confirmed by simultaneous ACE magnetic field and solar wind plasma observations at the L1 point 1.4 million km upstream of the Earth. The measured and calculated features of HFA events were compared with the results of different previous hybrid simulations. During the whole spring season of 2003, the solar wind speed was higher than the average. Here we checked whether the higher solar wind speed is a real condition of HFA formation also in 2006 and 2007., Comment: review paper, 11 pages, 11 figures, published in 2010

Published
2018
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16. Cluster Hot Flow Anomaly Observations During Solar Cycle Minimum

Author

Facsko, Gabor, Tatrallyay, Mariella, Erdos, Geza, and Dandouras, Iannis

Subjects
Physics - Space Physics
Abstract

Hot flow anomalies (HFAs) are studied using observations of the FGM magnetometer and the CIS plasma detector aboard the four Cluster spacecraft. Previously we studied several specific features of tangential discontinuities on the basis of Cluster measurements in February-April 2003 and discovered a new condition for forming HFAs that is the solar wind speed is higher than the average. However during the whole spring season of 2003, the solar wind speed was higher than average. In this study we analyse HFAs detected in 2007, the year of solar cycle minimum. Our earlier result was confirmed: the higher solar wind speed is a real condition for HFA formation; furthermore this constraint is independent of Schwartz et al. s condition for HFA formation., Comment: refereed conference paper, 8 pages, 4 figures, published in 2010

Published
2018
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17. A statistical study of hot flow anomalies using Cluster data

Author

Facsko, Gabor, Kecskemety, Karoly, Erdos, Geza, Tatrallyay, Mariella, Daly, Patrick W., and Dandouras, Iannis

Subjects
Physics - Space Physics
Abstract

Hot flow anomalies (HFAs) are studied using observations of the RAPID suprathermal charged particle detector, the FGM magnetometer, and the CIS plasma detector aboard the four Cluster spacecraft. Previously, we studied several specific features of tangential discontinuities on the basis of Cluster measurements in February-April 2003. In this paper, we confirm the following results: the angle between the Sun direction and the tangentional discontinuity (TD) normal is larger than 45{\deg} during HFAs, the magnetic field directional change is large. We then present evidence for a new necessary condition for the formation of HFAs, that is, the solar wind speed is significantly ( about 200 km/s or dMf=2.3) higher than the long-term average. The existence of this condition is also confirmed by simultaneous ACE MAG and SWEPAM solar wind observations at the L1 point 1.4 million km upstream of the Earth. The results are compared with recent hybrid simulations., Comment: 11 pages, 6 figures, published in 2008

Published
2018
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18. Nematicity of correlated systems driven by anisotropic chemical phase separation

Author

Yuan, Ye, Hübner, René, Birowska, Magdalena, Xu, Chi, Wang, Mao, Prucnal, Slawomir, Jakiela, Rafal, Potzger, Kay, Böttger, Roman, Facsko, Stefan, Majewski, Jacek A., Helm, Manfred, Sawicki, Maciej, Zhou, Shengqiang, and Dietl, Tomasz

Subjects
Condensed Matter - Materials Science
Abstract

The origin of nematicity, i.e., in-plane rotational symmetry breaking, and in particular the relative role played by spontaneous unidirectional ordering of spin, orbital, or charge degrees of freedom, is a challenging issue of magnetism, unconventional superconductivity, and quantum Hall effect systems, discussed in the context of doped semiconductor systems, such as Ga$_{1-x}$Mn$_x$As, Cu$_x$Bi$_2$Se$_3$, and Ga(Al)As/Al$_x$Ga$_{1-x}$As quantum wells, respectively. Here, guided by our experimental and theoretical results for In$_{1-x}$Fe$_x$As, we demonstrate that spinodal phase separation at the growth surface (that has a lower symmetry than the bulk) can lead to a quenched nematic order of alloy components, which then governs low temperature magnetic and magnetotransport properties, in particular the magnetoresistance anisotropy whose theory for the $C_{2v}$ symmetry group is advanced here. These findings, together with earlier data for Ga$_{1-x}$Mn$_x$As, show under which conditions anisotropic chemical phase separation accounts for the magnitude of transition temperature to a collective phase or merely breaks its rotational symmetry. We address the question to what extent the directional distribution of impurities or alloy components setting in during the growth may account for the observed nematicity in other classes of correlated systems., Comment: 16 pages and 11 figures

Published
2018
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19. Implanting germanium into graphene

Author

Tripathi, Mukesh, Markevich, Alexander, Böttger, Roman, Facsko, Stefan, Besley, Elena, Kotakoski, Jani, and Susi, Toma

Subjects
Condensed Matter - Materials Science
Abstract

Incorporating heteroatoms into the graphene lattice may be used to tailor its electronic, mechanical and chemical properties. Direct substitutions have thus far been limited to incidental Si impurities and P, N and B dopants introduced using low-energy ion implantation. We present here the heaviest impurity to date, namely $^{74}$Ge$^+$ ions implanted into monolayer graphene. Although sample contamination remains an issue, atomic resolution scanning transmission electron microscopy imaging and quantitative image simulations show that Ge can either directly substitute single atoms, bonding to three carbon neighbors in a buckled out-of-plane configuration, or occupy an in-plane position in a divacancy. First principles molecular dynamics provides further atomistic insight into the implantation process, revealing a strong chemical effect that enables implantation below the graphene displacement threshold energy. Our results show that heavy atoms can be implanted into the graphene lattice, pointing a way towards advanced applications such as single-atom catalysis with graphene as the template., Comment: 20 pages, 5 figures

Published
2018
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20. Bottom-up fabrication of FeSb2 nanowires on crystalline GaAs substrates with ion-induced pre-patterning

Author

Tom Weinert, René Hübner, Stefan Facsko, and Denise J. Erb

Subjects
bottom-up nanofabrication, ion-induced nanopatterning, physical vapor deposition, transmission electron microscopy, energy-dispersive X-ray spectroscopy, Physics, QC1-999
Abstract

In recent decades, nanostructuring has become one of the most important techniques to design and engineer functional materials. The properties of nanostructured materials are influenced by the interplay of its instrinsic bulk properties and the properties of its surface - the relative importance of the latter being enhanced by the increased surface-to-volume ratio in nanostructures. For instance, nanostructuring of a thermoelectric material can reduce the thermal conductivity while maintaining constant electrical conductivity and the Seebeck coefficient, which would improve the thermoelectric properties. For that reason, this study investigated the possibility of preparing nanowires of iron antimonide (FeSb2), a thermoelectric material, on single-crystalline gallium arsenide GaAs (001) substrates with ion-induced surface nanoscale pre-patterning and characterized the structure of the prepared FeSb2 nanowires. The GaAs (001) substrates were pre-patterned using 1 keV Ar+ ion irradiation. By using an ion source with a broad, unfocused ion beam at normal incidence, the patterned area can be scaled to nearly any size. The self-organized surface morphology is formed by reverse epitaxy and is characterized by almost perfectly parallel-aligned ripples at the nanometer scale. For the fabrication of FeSb2 nanowires, iron and antimony were successively deposited on the pre-patterned GaAs substrates at grazing incidence and then annealed. They were characterized using transmission electron microscopy (TEM), in particular high-resolution TEM imaging for structure analysis and spectrum imaging analysis based on energy-dispersive X-ray spectroscopy for element characterization. With the presented fabrication method, FeSb2 nanowires were produced successfully on GaAs(001) substrates with an ion-induced nanopatterned surface. The nanowires have a polycristalline structure and a cross-sectional area which is scalable up to 22 × 22 nm2. Due to the high order nanostructures on the GaAs substrate, the nanowires have a length of several micrometer. This bottom-up nanofabrication process based on ion-induced patterning can be a viable alternative to top-down procedures regarding to efficiency and costs.

Published
2023
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22. Nano patterns self-aligned to Ga dimer rows on GaAs surfaces

Author

Engler, Martin, Škereň, Tomáš, and Facsko, Stefan

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Ion beam irradiation of semiconductors is a method to produce regular periodic nanoscale patterns self-organized on wafer scale. At low temperatures, the surface of semiconductors is typically amorphized by the ion beam. Above a material dependent dynamic recrystallization temperature however, the surface remains crystalline and ion beam irradiation produces regular arrays of faceted ripples on III-V semiconductors. This provides a powerful single-step technique for the production of nanostructures on a large area. On $(001)$ surfaces these ripples are parallel to the $[1\bar{1}0]$ direction without any external anisotropy. The origin of this self-alignment was not fully understood until now. A simple experiment exposing the front side and back side of a GaAs$(001)$ wafer to the ion beam clarifies its origin and proves that the ripples align to the Ga dimer rows. As the direction of Ga dimer rows rotates by 90{\deg} on the back side, the orientation of the ripples also rotates by 90{\deg} to $[110]$. We discuss the experimental results in view of a model where the pattern formation is driven by creation of vacancies and ad-atoms by the ion beam and their diffusion, which is linked to the direction of dimers on the surface.

Published
2016

24. One year in the Earth's magnetosphere: A global MHD simulation and spacecraft measurements

Author

Facsko, G., Honkonen, I., Zivkovic, T., Palin, L., Kallio, E., Agren, K., Opgenoorth, H., Tanskanen, E. I., and Milan, S. E.

Subjects
Physics - Space Physics
Abstract

The response of the Earth's magnetosphere to changing solar wind conditions are studied with a 3D Magnetohydrodynamic (MHD) model. One full year (155 Cluster orbits) of the Earth's magnetosphere is simulated using Grand Unified Magnetosphere Ionosphere Coupling simulation (GUMICS-4) magnetohydrodynamic code. Real solar wind measurements are given to the code as input to create the longest lasting global magnetohydrodynamics simulation to date. The applicability of the results of the simulation depends critically on the input parameters used in the model. Therefore, the validity and the variance of the OMNIWeb data is first investigated thoroughly using Cluster measurement close to the bow shock. The OMNIWeb and the Cluster data were found to correlate very well before the bow shock. The solar wind magnetic field and plasma parameters are not changed significantly from the $L_1$ Lagrange point to the foreshock, therefore the OMNIWeb data is appropriate input to the GUMICS-4. The Cluster SC3 footprints are determined by magnetic field mapping from the simulation results and the Tsyganenko (T96) model in order to compare two methods. The determined footprints are in rather good agreement with the T96. However, it was found that the footprints agree better in the northern hemisphere than the southern one during quiet conditions. If the By is not zero, the agreement of the GUMICS-4 and T96 footprint is worse in longitude in the southern hemisphere. Overall, the study implies that a 3D MHD model can increase our insight of the response of the magnetosphere to solar wind conditions., Comment: Accepted for publication in Space Weather, http://onlinelibrary.wiley.com/doi/10.1002/2015SW001355/full

Published
2016
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26. Ultralong-term high-density data storage with atomic defects in SiC

Author

Hollenbach, M., Kasper, C., (0000-0002-5831-7284) Erb, D., (0000-0003-3968-7498) Bischoff, L., (0000-0001-7192-716X) Hlawacek, G., Kraus, H., Kada, W., Ohshima, T., Helm, M., (0000-0003-3698-3793) Facsko, S., Dyakonov, V., (0000-0003-1807-3534) Astakhov, G., Hollenbach, M., Kasper, C., (0000-0002-5831-7284) Erb, D., (0000-0003-3968-7498) Bischoff, L., (0000-0001-7192-716X) Hlawacek, G., Kraus, H., Kada, W., Ohshima, T., Helm, M., (0000-0003-3698-3793) Facsko, S., Dyakonov, V., and (0000-0003-1807-3534) Astakhov, G.

Abstract

There is an urgent need to increase the global data storage capacity, as current approaches lag behind the exponential growth of data generation driven by the Internet, social media and cloud technologies. In addition to increasing storage density, new solutions should provide long-term data archiving that goes far beyond traditional magnetic memory, optical disks and solid-state drives. Here, we propose a concept of energy-efficient, ultralong, high-density data archiving based on optically active atomic-size defects in a radiation resistance material, silicon carbide (SiC). The information is written in these defects by focused ion beams and read using photoluminescence or cathodoluminescence. The temperature-dependent deactivation of these defects suggests a retention time minimum over a few generations under ambient conditions. With near-infrared laser excitation, grayscale encoding and multi-layer data storage, the areal density corresponds to that of Blu-ray discs. Furthermore, we demonstrate that the areal density limitation of conventional optical data storage media due to the light diffraction can be overcome by focused electron-beam excitation.

Published
2024

27. Data publication: Ultralong-term high-density data storage with atomic defects in SiC

Author

Hollenbach, M., Kasper, C., (0000-0002-5831-7284) Erb, D., (0000-0003-3968-7498) Bischoff, L., (0000-0001-7192-716X) Hlawacek, G., Kraus, H., Kada, W., Ohshima, T., Helm, M., (0000-0003-3698-3793) Facsko, S., Dyakonov, V., (0000-0003-1807-3534) Astakhov, G., Hollenbach, M., Kasper, C., (0000-0002-5831-7284) Erb, D., (0000-0003-3968-7498) Bischoff, L., (0000-0001-7192-716X) Hlawacek, G., Kraus, H., Kada, W., Ohshima, T., Helm, M., (0000-0003-3698-3793) Facsko, S., Dyakonov, V., and (0000-0003-1807-3534) Astakhov, G.

Abstract

Experimental data in OriginPro

Published
2024

28. An intermediate morphology in the patterning of the crystalline Ge(001) surface induced by ion irradiation

Author

(0000-0002-5831-7284) Erb, D., Pearson, D. A., Skeren, T., (0000-0002-6593-0677) Engler, M., Bradley, R. M., (0000-0003-3698-3793) Facsko, S., (0000-0002-5831-7284) Erb, D., Pearson, D. A., Skeren, T., (0000-0002-6593-0677) Engler, M., Bradley, R. M., and (0000-0003-3698-3793) Facsko, S.

Abstract

We investigate the morphologies of the Ge(001) surface that are produced by bombardment with a normally incident, broad argon ion beam at sample temperatures above the recrystallization temperature. Two previously-observed kinds of topographies are seen, i.e., patterns consisting of upright and inverted rectangular pyramids, as well as patterns composed of shallow, isotropic basins. In addition, we observe the formation of an unexpected third type of pattern for intermediate values of the temperature, ion energy and ion flux. In this type of intermediate morphology, isolated peaks with rectangular cross sections stand above a landscape of shallow, rounded basins. We also extend past theoretical work to include a second order correction term that comes from the curvature dependence of the sputter yield. For a range of parameter values, the resulting continuum model of the surface dynamics produces patterns that are remarkably similar to the intermediate morphologies we observe in our experiments. The formation of the isolated peaks is the result of a term that is not ordinarily included in the equation of motion, a second order correction to the curvature dependence of the sputter yield.

Published
2024

29. Nanometer scale elemental analysis in the helium ion microscope using time of flight spectrometry

Author

Klingner, Nico, Heller, René, Hlawacek, Gregor, von Borany, Johannes, Notte, John, Huang, Jason, and Facsko, Stefan

Subjects
Physics - Instrumentation and Detectors
Abstract

Time of flight backscattering spectrometry (ToF-BS) was successfully implemented in a helium ion microscope (HIM). Its integration introduces the ability to perform laterally resolved elemental analysis as well as elemental depth profiling on the nm scale. A lateral resolution of $\leq$ 54 nm and a time resolution of $\Delta t \leq$ 17 ns $(\Delta t/t \leq 5.4\%)$ are achieved. By using the energy of the backscattered particles for contrast generation, we introduce a new imaging method to the HIM allowing direct elemental mapping as well as local spectrometry. In addition laterally resolved time of flight secondary ion mass spectrometry (ToF-SIMS) can be performed with the same setup. Time of flight is implemented by pulsing the primary ion beam. This is achieved in a cost effective and minimal invasive way that does not influence the high resolution capabilities of the microscope when operating in standard secondary electron (SE) imaging mode. This technique can thus be easily adapted to existing devices. The particular implementation of ToF-BS and ToF-SIMS techniques are described, results are presented and advantages, difficulties and limitations of this new techniques are discussed.

Published
2015
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30. Hot flow anomaly remnant in the far geotail?

Author

Facskó, Gábor, Opitz, Andrea, Lavraud, Benoit, Luhmann, Janet G., Russell, Christopher T., Sauvaud, Jean-Andre, Fedorov, Andrei, Kis, Árpád, and Wesztergom, Viktor

Subjects
Physics - Space Physics
Abstract

A hot flow anomaly (HFA) like event was observed by the Solar TErrestrial RElations Observatory (STEREO) in the night side magnetosheath in the far tail in February-March 2007. The magnetic signature of the tangential discontinuity was visible, but the resolution of the plasma ion data is not sufficient for our analysis, so a method is given to identify HFAs without solar wind velocity measurements. The event observed in the night side magnetosheath in the far tail might be the remnant of an HFA event, a not-so-active current sheet. This observation suggests that the lifetime of the HFAs might be several 10 minutes, much longer than the expected several minutes., Comment: accepted on January 23, 2015 to Journal of Atmospheric and Solar-Terrestrial Physics. 5 pages, 2 figures

Published
2015
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31. Windsock memory conditioned RAM (Co-Ram) pressure effect: forced reconnection in the Earth's magnetotail

Author

Vörös, Z., Facskó, G., Khodachenko, M., Honkonen, I., Janhunen, P., and Palmroth, M.

Subjects
Physics - Space Physics
Abstract

Magnetic reconnection (MR) is a key physical concept explaining the addition of magnetic flux to the magnetotail and closed flux lines back-motion to the dayside magnetosphere. This scenario elaborated by \citet{dung63}, can explain many aspects of solar wind-magnetosphere interaction processes, including substorms. However, neither the Dungey model nor its numerous modifications were able to explain fully the onset conditions for MR in the tail. In this paper, we introduce new onset conditions for forced MR in the tail. We call our scenario the "windsock memory conditioned ram pressure effect". Our non-flux-transfer associated forcing is introduced by a combination of large-scale windsock motions exhibiting memory effects and solar wind dynamic pressure actions on the nightside magnetopause during northward oriented IMF. Using global MHD GUMICS-4 simulation results, upstream data from WIND, magnetosheath data from Cluster-1 and distant-tail data from the two-probe ARTEMIS mission, we show that the simultaneous occurrence of vertical windsock motions of the magnetotail and enhanced solar wind dynamic pressure introduces strong nightside disturbances, including enhanced electric fields and persistent vertical cross-tail shear flows. These perturbations, associated with a stream interaction region in the solar wind, drive MR in the tail during episodes of northward oriented interplanetary magnetic field (IMF). We detect MR indirectly, observing plasmoids in the tail and ground based signatures of Earthward moving fast flows. We also consider the application to solar system planets and close-in exoplanets, where the proposed scenario can elucidate some new aspects of solar/stellar wind - magnetosphere interactions., Comment: 16 pages, 12 figures

Published
2014
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32. Enhanced Luminescence of Yb3+ Ions Implanted to ZnO through the Selection of Optimal Implantation and Annealing Conditions

Author

Renata Ratajczak, Elzbieta Guziewicz, Slawomir Prucnal, Cyprian Mieszczynski, Przemysław Jozwik, Marek Barlak, Svitlana Romaniuk, Sylwia Gieraltowska, Wojciech Wozniak, René Heller, Ulrich Kentsch, and Stefan Facsko

Subjects
wide bandgap oxides, zinc oxide, rare earth, ion implantation, annealing, RTA, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85
Abstract

Rare earth-doped zinc oxide (ZnO:RE) systems are attractive for future optoelectronic devices such as phosphors, displays, and LEDs with emission in the visible spectral range, working even in a radiation-intense environment. The technology of these systems is currently under development, opening up new fields of application due to the low-cost production. Ion implantation is a very promising technique to incorporate rare-earth dopants into ZnO. However, the ballistic nature of this process makes the use of annealing essential. The selection of implantation parameters, as well as post-implantation annealing, turns out to be non-trivial because they determine the luminous efficiency of the ZnO:RE system. This paper presents a comprehensive study of the optimal implantation and annealing conditions, ensuring the most efficient luminescence of RE3+ ions in the ZnO matrix. Deep and shallow implantations, implantations performed at high and room temperature with various fluencies, as well as a range of post-RT implantation annealing processes are tested: rapid thermal annealing (minute duration) under different temperatures, times, and atmospheres (O2, N2, and Ar), flash lamp annealing (millisecond duration) and pulse plasma annealing (microsecond duration). It is shown that the highest luminescence efficiency of RE3+ is obtained for the shallow implantation at RT with the optimal fluence of 1.0 × 1015 RE ions/cm2 followed by a 10 min annealing in oxygen at 800 °C, and the light emission from such a ZnO:RE system is so bright that can be observed with the naked eye.

Published
2023
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36. Charge Exchange and Energy Loss of Slow Highly Charged Ions in 1nm Thick Carbon Nanomembranes

Author

Wilhelm, Richard A., Gruber, Elisabeth, Ritter, Robert, Heller, René, Facsko, Stefan, and Aumayr, Friedrich

Subjects
Condensed Matter - Materials Science
Abstract

Experimental charge exchange and energy loss data for the transmission of slow highly charged Xe ions through ultra-thin polymeric carbon membranes are presented. Surprisingly, two distinct exit charge state distributions accompanied by charge exchange dependent energy losses are observed. The energy loss for ions exhibiting large charge loss shows a quadratic dependency on the incident charge state indicating that equilibrium stopping force values do not apply in this case. Additional angle resolved transmission measurements point on a significant contribution of elastic energy loss. The observations show that regimes of different impact parameters can be separated and thus a particle's energy deposition in an ultra-thin solid target may not be described in terms of an averaged energy loss per unit length.

Published
2013
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37. Reverse epitaxy of Ge: ordered and facetted surface patterns

Author

Ou, Xin, Keller, Adrian, Helm, Manfred, Fassbender, Jürgen, and Facsko, Stefan

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Normal incidence ion irradiation at elevated temperatures, when amorphization is prevented, induces novel nanoscale patterns of crystalline structures on elemental semiconductors by a reverse epitaxial growth mechanism: on Ge surfaces irradiation at temperatures above the recrystallization temperature of 250{\deg}C leads to self-organized patterns of inverse pyramids. Checkerboard patterns with fourfold symmetry evolve on the Ge (100) surface, whereas on the Ge (111) surface, isotropic patterns with a sixfold symmetry emerge. After high fluence irradiations these patterns exhibit well developed facets. A deterministic nonlinear continuum equation accounting for the effective surface currents due to an Ehrlich-Schwoebel barrier for diffusing vacancies reproduces remarkably well our experimental observations., Comment: 6 pages, 5 figures

Published
2013
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38. A Randomized Controlled Trial of OPT-302, a VEGF-C/D Inhibitor for Neovascular Age-Related Macular Degeneration

Author

Timothy L. Jackson, Jason Slakter, Marc Buyse, Kun Wang, Pravin U. Dugel, Charles C. Wykoff, David S. Boyer, Michael Gerometta, Megan E. Baldwin, Clare F. Price, Bohdan Kousal, Jan Studnicka, Michal Veith, Catherine Creuzot-Garcher, Flore De Bats, David Gaucher, Martine Mauget-Faysse, Eric Souied, Ramin Tadayoni, Andrea Facsko, Agnes Kerénvi, Andras Papp, Alexis Tsorbatzoglou, Gabor Vogt, Yoreh Barak, Itay Chowers, Michaella Goldstein, Joel Hanhart, Haya Morori-Katz, Irit Rosenblatt, Alexander Rubowitz, Oren Tomkins Netzer, Francesco Bandello, Antonio Ciardella, Federico Ricci, Giovanni Staurenghi, Gianni Virgili, Kristine Baumane, Guna Laganovska, Signe Ozolina, Ilze Strautmane, Bartlomiej Kaluzny, Jerzy Mackiewicz, Marta Misiuk-Hoilo, Ewa Mrukwa-Kominek, Piotr Oleksy, Krystyna Raczynska, Tomasz Zarnowski, Alfredo Adan, Javier Araiz, Anna Boixadera, Alvaro Fernández-Vega, Alfredo Garcia Layana, Francisco Gomez-Ulla, Javier Montero, Jose Maria Ruiz Moreno, David Gilmour, Timothy Jackson, Sidath Liyanage, Luke Membrey, Geeta Menon, Niro Narendran, Sobha Sivaprasad, Daniel Alfaro, Andrew Antoszyk, Carl Baker, Ivan Batille, Brian Berger, David Boyer, William Bridges, Harold Brooks, David Brown, Margaret Chang, Daniel Chao, Sanford Chen, Courtney Crawford, Pravin Dugel, Alexander Eaton, David Eichenbaum, Jordana Fein, Leonard Feiner, Christina Flaxel, Frank Garber, Alan Gordon, Sunil Gupta, Curtis Haegedorn, George Hampton, Thomas Hanscom, Vrinda Hershberger, Peter Kaiser, Randy Katz, Arshad Khanani, Erik Kruger, Denis Marcus, Matthew Ohr, Sunil Patel, Joel Pearlman, Richard Pesavento, Dante Pieramici, John Pitcher, Jay Prensky, John Randolf, Carl Regillo, Steven Rose, Michael Samuel, Todd Schneiderman, Sumit Shah, Michael Singer, Nathan Steinle, Glenn Stoller, Alan Thach, John Thompson, Michael Varenhorst, Alan Wagner, Joseph Walker, John Wells, Jonathan Williams, Robert Wong, and Charles Wykoff

Subjects
Ophthalmology
Published
2023

40. Dynamic effects induced by renormalization in anisotropic pattern forming systems

Author

Keller, Adrian, Nicoli, Matteo, Facsko, Stefan, and Cuerno, Rodolfo

Subjects
Condensed Matter - Statistical Mechanics, Condensed Matter - Disordered Systems and Neural Networks, Condensed Matter - Materials Science, Nonlinear Sciences - Pattern Formation and Solitons
Abstract

The dynamics of patterns in large two-dimensional domains remains a challenge in non-equilibrium phenomena. Often it is addressed through mild extensions of one-dimensional equations. We show that full 2D generalizations of the latter can lead to unexpected dynamical behavior. As an example we consider the anisotropic Kuramoto-Sivashinsky equation, that is a generic model of anisotropic pattern forming systems and has been derived in different instances of thin film dynamics. A rotation of a ripple pattern by $90^{\circ}$ occurs in the system evolution when nonlinearities are strongly suppressed along one direction. This effect originates in non-linear parameter renormalization at different rates in the two system dimensions, showing a dynamical interplay between scale invariance and wavelength selection. Potential experimental realizations of this phenomenon are identified., Comment: 5 pages, 3 figures; supplemental material available at journal web page and/or on request

Published
2012
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41. Phase diagram for nanostructuring CaF$_2$ surfaces by slow highly charged ions

Author

El-Said, A. S., Wilhelm, R. A., Heller, R., Facsko, S., Lemell, C., Wachter, G., Burgdörfer, J., Ritter, R., and Aumayr, F.

Subjects
Condensed Matter - Materials Science
Abstract

Impacts of individual slow highly charged ions on alkaline earth halide and alkali halide surfaces create nano-scale surface modifications. For different materials and impact energies a wide variety of topographic alterations have been observed, ranging from regularly shaped pits to nano-hillocks. We present experimental evidence for a second threshold for defect creation supported by simulations involving the initial electronic heating and subsequent molecular dynamics. From our findings a unifying phase diagram underlying these diverse observations can be derived. By chemically etching of CaF$_2$ samples after irradiation with slow highly charged ions both above and below the potential energy threshold for hillock formation another threshold exists above which triangular pits are observed after etching. This threshold depends on both the potential and kinetic energies of the incident ion. Simulations indicate that this second threshold is associated with the formation of defect aggregates in the topmost layers of CaF$_2$.

Published
2012
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42. Correlation functions of small-scale fluctuations of the interplanetary magnetic field

Author

Németh, Z., Facskó, G., and Lucek, E. A.

Subjects
Physics - Space Physics, Astrophysics - Solar and Stellar Astrophysics, Physics - Geophysics, Physics - Plasma Physics
Abstract

The Interplanetary Magnetic Field shows complex spatial and temporal variations. Single spacecraft measurements reveal only a one dimensional section of this rich four dimensional phenomenon. Multi-point measurements of the four Cluster spacecraft provide a unique tool to study the spatiotemporal structure of the field. Using Cluster data we determined three dimensional correlation functions of the fluctuations. By means of the correlation function one can describe and measure field variations. Our results can be used to verify theoretical predictions, to understand the formation and nature of solar wind turbulence. We found that the correlation length varies over almost six orders of magnitude. The IMF turbulence shows significant anisotropy with two distinct populations. In certain time intervals the ratio of the three axes of the correlation ellipse is 1/2.2/6 while in the remaining time we found extremely high correlation along one axis. We found favoured directions in the orientation of the correlation ellipsoids., Comment: accepted to Solar Physics on June 14, 2010. 10 pages, 8 figures

Published
2010
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43. Nanopatterning of Si surfaces by normal incident ion erosion: influence of metal incorporation on surface morphology evolution

Author

Zhou, Jing, Facsko, Stefan, Lu, Ming, and Moeller, Wolfhard

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The morphology evolution of Si (100) surfaces under 1200 eV Ar+ ion bombardment at normal incidence with and without metal incorporation is presented. The formation of nanodot patterns is observed only when the stationary Fe concentration in the surface is above 8x10^14 cm^-2. This is interpreted in terms of an additional surface instability due to non-uniform sputtering in connection with metal enrichment at the nanodots. At low metal concentration smoothing dominates and pattern formation is thus inhibited. The transition from a k^-2 to a k^-4 behavior in the asymptotic power spectral density function supports the conclusion that ballistic smoothing and ion-enhanced viscous flow are the two dominant mechanisms of surface relaxation., Comment: 10 pages, 4 figures, 1 table

Published
2010
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44. Realization of wafer-scale nanogratings with sub-50 nm period through vacancy epitaxy

Author

Qiushi Huang, Qi jia, Jiangtao Feng, Hao Huang, Xiaowei Yang, Joerg Grenzer, Kai Huang, Shibing Zhang, Jiajie Lin, Hongyan Zhou, Tiangui You, Wenjie Yu, Stefan Facsko, Philippe Jonnard, Meiyi Wu, Angelo Giglia, Zhong Zhang, Zhi Liu, Zhanshan Wang, Xi Wang, and Xin Ou

Subjects
Science
Abstract

Fabrication of wafer-scale nanogratings for X-ray spectroscopy is difficult especially for very high line densities. The authors use vacancy epitaxy to fabricate sub-50-nm-periodicity gratings, coated with multilayers for efficient operation, for use in ultra-high resolution x-ray spectroscopy.

Published
2019
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45. Site-controlled formation of single Si nanocrystals in a buried SiO2 matrix using ion beam mixing

Author

Xiaomo Xu, Thomas Prüfer, Daniel Wolf, Hans-Jürgen Engelmann, Lothar Bischoff, René Hübner, Karl-Heinz Heinig, Wolfhard Möller, Stefan Facsko, Johannes von Borany, and Gregor Hlawacek

Subjects
helium ion microscopy, ion beam mixing, Monte Carlo simulations, phase separation, single electron transistor, Technology, Chemical technology, TP1-1185, Science, Physics, QC1-999
Abstract

For future nanoelectronic devices – such as room-temperature single electron transistors – the site-controlled formation of single Si nanocrystals (NCs) is a crucial prerequisite. Here, we report an approach to fabricate single Si NCs via medium-energy Si+ or Ne+ ion beam mixing of Si into a buried SiO2 layer followed by thermally activated phase separation. Binary collision approximation and kinetic Monte Carlo methods are conducted to gain atomistic insight into the influence of relevant experimental parameters on the Si NC formation process. Energy-filtered transmission electron microscopy is performed to obtain quantitative values on the Si NC size and distribution in dependence of the layer stack geometry, ion fluence and thermal budget. Employing a focused Ne+ beam from a helium ion microscope, we demonstrate site-controlled self-assembly of single Si NCs. Line irradiation with a fluence of 3000 Ne+/nm2 and a line width of 4 nm leads to the formation of a chain of Si NCs, and a single NC with 2.2 nm diameter is subsequently isolated and visualized in a few nanometer thin lamella prepared by a focused ion beam (FIB). The Si NC is centered between the SiO2 layers and perpendicular to the incident Ne+ beam.

Published
2018
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46. The effect of ranibizumab and aflibercept treatment on the prevalence of outer retinal tubulation and its influence on retreatment in neovascular age-related macular degeneration

Author

Attila Kovacs, Timea Kiss, Ferenc Rarosi, Gabor M. Somfai, Andrea Facsko, and Rozsa Degi

Subjects
Outer retinal tubulation, Prevalence, Anti-VEGF, Aflibercept, Retreatment, Subretinal hyperreflective material, Ophthalmology, RE1-994
Abstract

Abstract Background We aimed to analyze the differences in the prevalence of outer retinal tubulation (ORT) in neovascular age-related macular degeneration (AMD) treated with anti-vascular endothelial growth factor (anti-VEGF) agents, either aflibercept or ranibizumab. Our further aim was to examine the changes in the frequency of injections of ranibizumab before and after ORT appearance. Methods Two hundred thirty six eyes of 230 patients were included in the study (184 eyes treated with ranibizumab by pro re nata regimen (PRN), 52 eyes with aflibercept bimonthly) and followed for 6–24 months. Using optical coherence tomography (OCT), the first appearance of ORT was documented, and fixed time point evaluations were also made every six months to determine the existence of ORT. The number of injections, the presence or absence of subretinal hyperreflective material (SHRM) at treatment initiation and visual acuity were also noted. Results The survival analysis with Cox proportional hazard model showed no significant difference between the ranibizumab and aflibercept groups in relation to the development of ORT (p = 0.79, hazard ratio 0.92). In the PRN treated ranibizumab group the number of injections showed significant decrease after ORT development (p = 0.004). When SHRM was present at treatment initiation the chance of developing ORT was 2.75 and 11.14 times higher in the ranibizumab and aflibercept groups, respectively. Conclusions The prevalence of ORT increased over time independently from the chosen anti-VEGF drug. Our results suggest that upon the appearance of ORT a decrease in retreatments can be expected.

Published
2018
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49. The COVID-19 mRNA vaccine Comirnaty induces anaphylactic shock in an anti-PEG hyperimmune large animal model: Role of complement in cardiovascular, hematological, and inflammatory mediator changes

Author

Barta, Balint A., primary, Radovits, Tamas, additional, Dobos, Attila B., additional, Kozma, Gergely T., additional, Meszaros, Tamas, additional, Berenyi, Petra, additional, Facsko, Reka, additional, Fulop, Tamas Gy., additional, Merkely, Bela, additional, and Szebeni, Janos, additional

Published
2023
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