Evgeniya Begun - Academia.edu (original) (raw)
Papers by Evgeniya Begun
Geodesy and Cartography, 2014
In the majority of cases nanostructures prepared by focused electron beam induced deposition (FEB... more In the majority of cases nanostructures prepared by focused electron beam induced deposition (FEBID) employing an organometallic precursor contain predominantly carbon-based ligand dissociation products. This is unfortunate with regard to using this high-resolution direct-write approach for the preparation of nanostructures for various fields, such as mesoscopic physics, micromagnetism, electronic correlations, spin-dependent transport and numerous applications. Here we present an in-situ cleaning approach to obtain pure Co-FEBID nanostructures. The purification procedure lies in the exposure of heated samples to a H_2 atmosphere in conjunction with the irradiation by low-energy electrons. The key finding is that the combination of annealing at 300^∘C, H_2 exposure and electron irradiation leads to compact, carbon- and oxygen free Co layers down to a thickness of about 20 nm starting from as-deposited Co-FEBID structures. In addition to this, in temperature-dependent electrical resi...
An advanced mask-less nanofabrication technique, focused electron beam-induced deposition (FEBID)... more An advanced mask-less nanofabrication technique, focused electron beam-induced deposition (FEBID), has been employed on epitaxial Nb thin films for their ferromagnetic decoration by an array of Co stripes. These substantially modify the non-patterned films' superconducting properties, providing a washboard-like pinning potential landscape for the vortex motion. At small magnetic fields B<0.1T, vortex lattice matching effects have been investigated by magneto-transport measurements. Peculiarities in the field dependencies of the films resistivity R(B) have been observed in particular for the vortex motion perpendicular to the Co stripes. The deduced field values correspond to the vortex lattice parameter matching the pinning structure's period, whereas no fields matching the stripe width have been observed, as it was reported previously [D. Jaque et al., Appl. Phys. Lett. 81, 2851 (2002)] for Nb films grown on periodically distributed submicrometric lines of Ni.
We present experimental results and theoretical simulations of the adsorption behavior of the met... more We present experimental results and theoretical simulations of the adsorption behavior of the metal-organic precursor Co2(CO)8 on SiO2 surfaces after application of two different pre-treatment steps, namely by air plasma cleaning or a focused electron beam pre-irradiation. We observe a spontaneous dissociation of the precursor molecules as well as auto-deposition of cobalt on the pre-treated SiO2 surfaces. We also find that the differences in metal content and relative stability of these deposits depend on the pre-treatment conditions of the substrate. Transport measurements of these deposits are also presented. We are led to assume that the degree of passivation of the SiO2 surface by hydroxyl groups is an important controlling factor in the dissociation process. Our calculations of various slab settings using dispersion corrected density functional theory support this assumption. We observe physisorption of the precursor molecule on a fully hydroxylated SiO2 surface (untreated sur...
Journal of Physics D: Applied Physics, 2014
ABSTRACT We investigate the influence of local magnetic field on the spin-dependent transport pro... more ABSTRACT We investigate the influence of local magnetic field on the spin-dependent transport properties of magnetic granular metals. By means of electron-beam-induced-deposition we fabricate a complex granular system made of Co nanopillars embedded in a Pt-C nano-granular metal matrix. We identify two different spin-dependent tunnelling regimes. In the first one, transport occurs almost exclusively through the nano-granular Pt-C matrix and it is affected by the local stray field due to the Co nanopillars. In the second regime, the transport takes place through both the Pt-C matrix and the Co nanopillars. These two transport regimes are discriminated by the different sign of the magnetoresistance. In particular, a strong enhancement of the magnetoresistance is found at low temperatures in the second regime, which is caused by spin-flip scattering and higher order tunnelling processes.
Beilstein Journal of Nanotechnology, 2012
We present experimental results and theoretical simulations of the adsorption behavior of the met... more We present experimental results and theoretical simulations of the adsorption behavior of the metal–organic precursor Co2(CO)8 on SiO2 surfaces after application of two different pretreatment steps, namely by air plasma cleaning or a focused electron beam pre-irradiation. We observe a spontaneous dissociation of the precursor molecules as well as autodeposition of cobalt on the pretreated SiO2 surfaces. We also find that the differences in metal content and relative stability of these deposits depend on the pretreatment conditions of the substrate. Transport measurements of these deposits are also presented. We are led to assume that the degree of passivation of the SiO2 surface by hydroxyl groups is an important controlling factor in the dissociation process. Our calculations of various slab settings, using dispersion-corrected density functional theory, support this assumption. We observe physisorption of the precursor molecule on a fully hydroxylated SiO2 surface (untreated surfa...
Modern Electronic Materials, 2015
Nanotechnology, 2015
In the majority of cases nanostructures prepared by focused electron beam induced deposition (FEB... more In the majority of cases nanostructures prepared by focused electron beam induced deposition (FEBID) employing an organometallic precursor contain predominantly carbon-based ligand dissociation products. This is unfortunate with regard to using this high-resolution direct-write approach for the preparation of nanostructures for various fields, such as mesoscopic physics, micromagnetism, electronic correlations, spin-dependent transport and numerous applications. Here we present an in-situ cleaning approach to obtain pure Co-FEBID nanostructures. The purification procedure lies in the exposure of heated samples to a H 2 atmosphere in conjunction with the irradiation by low-energy electrons. The key finding is that the combination of annealing at 300 • C, H 2 exposure and electron irradiation leads to compact, carbon-and oxygen free Co layers down to a thickness of about 20 nm starting from as-deposited Co-FEBID structures. In addition to this, in temperature-dependent electrical resistance measurements on post-processed samples we find a typical metallic behavior. In low-temperature magneto-resistance and Hall effect measurements we observe ferromagnetic behavior. arXiv:1504.01945v1 [cond-mat.mes-hall] 8 Apr 2015
Physica C: Superconductivity, 2013
ABSTRACT An analysis of the interrelated changes in the material composition and the pinning stre... more ABSTRACT An analysis of the interrelated changes in the material composition and the pinning strength in nanostructured Nb (1 1 0) thin films is presented. The nanopatterns were prepared by focused ion beam milling of an array of uniaxial grooves. They induce a washboard-like pinning potential landscape for vortices in the mixed state. By applying different magnetic fields, the most likely pinning sites along which the flux lines move through the samples have been selected. By this, either the background isotropic pinning of the pristine film or the enhanced isotropic pinning originating from the nanoprocessing has been probed. The enhanced pinning strength in the processed films has been found to correlate with the content of Ga implanted into the films during the nanopatterning.
New Journal of Physics, 2012
A careful analysis of the magneto-transport properties of epitaxial nanostructured Nb thin films ... more A careful analysis of the magneto-transport properties of epitaxial nanostructured Nb thin films in the normal and the mixed state is performed. The nanopatterns were prepared by focused ion beam (FIB) milling. They provide a washboard-like pinning potential landscape for vortices in the mixed state and simultaneously cause a resistivity anisotropy in the normal state. Two matching magnetic fields for the vortex lattice with the underlying nanostructures have been observed. By applying these fields, the most likely pinning sites along which the flux lines move through the samples have been selected. By this, either the background isotropic pinning of the pristine film or the enhanced isotropic pinning originating from the nanoprocessing have been probed. Via an Arrhenius analysis of the resistivity data the pinning activation energies for three vortex lattice parameters have been quantified. The changes in the electrical transport and the pinning properties have been correlated with the results of the microstructural and topographical characterization of the FIB-patterned samples. Accordingly, along with the surface processing, FIB milling has been found to alter the material composition and the degree of disorder in as-grown films. The obtained results provide further insight into the pinning mechanisms at work in FIB-nanopatterned superconductors, e.g. for fluxonic applications.
Nanotechnology, 2012
CoPt-C binary alloys have been fabricated by focused-electron-beam-induced deposition by the simu... more CoPt-C binary alloys have been fabricated by focused-electron-beam-induced deposition by the simultaneous use of Co₂(CO)₈ and (CH₃)₃CH₃C₅H₄Pt as precursor gases. The alloys are made of CoPt nanoparticles embedded in a carbonaceous matrix. TEM investigations show that as-grown samples are in an amorphous phase. By means of a room temperature low-energy electron irradiation treatment the CoPt nanoparticles transform into face-centered tetragonal L1₀ nanocrystallites. In parallel, the system undergoes a transition from a superparamagnetic to a ferromagnetic state at room temperature. By variation of the post-growth irradiation dose the electrical and magneto-transport properties of the alloy can be continuously tuned.
Physica C-superconductivity and Its Applications, 2011
An advanced mask-less nanofabrication technique, focused electron beam-induced deposition (FEBID)... more An advanced mask-less nanofabrication technique, focused electron beam-induced deposition (FEBID), has been employed on epitaxial Nb thin films to prepare ferromagnetic decorations in the form of an array of Co stripes. These substantially modify the non-patterned films' superconducting properties, providing a washboard-like pinning potential landscape for the vortex motion. At small magnetic fields B ≤ 0.1 T, vortex lattice matching effects have been investigated by magneto-transport measurements.
Geodesy and Cartography, 2014
In the majority of cases nanostructures prepared by focused electron beam induced deposition (FEB... more In the majority of cases nanostructures prepared by focused electron beam induced deposition (FEBID) employing an organometallic precursor contain predominantly carbon-based ligand dissociation products. This is unfortunate with regard to using this high-resolution direct-write approach for the preparation of nanostructures for various fields, such as mesoscopic physics, micromagnetism, electronic correlations, spin-dependent transport and numerous applications. Here we present an in-situ cleaning approach to obtain pure Co-FEBID nanostructures. The purification procedure lies in the exposure of heated samples to a H_2 atmosphere in conjunction with the irradiation by low-energy electrons. The key finding is that the combination of annealing at 300^∘C, H_2 exposure and electron irradiation leads to compact, carbon- and oxygen free Co layers down to a thickness of about 20 nm starting from as-deposited Co-FEBID structures. In addition to this, in temperature-dependent electrical resi...
An advanced mask-less nanofabrication technique, focused electron beam-induced deposition (FEBID)... more An advanced mask-less nanofabrication technique, focused electron beam-induced deposition (FEBID), has been employed on epitaxial Nb thin films for their ferromagnetic decoration by an array of Co stripes. These substantially modify the non-patterned films' superconducting properties, providing a washboard-like pinning potential landscape for the vortex motion. At small magnetic fields B<0.1T, vortex lattice matching effects have been investigated by magneto-transport measurements. Peculiarities in the field dependencies of the films resistivity R(B) have been observed in particular for the vortex motion perpendicular to the Co stripes. The deduced field values correspond to the vortex lattice parameter matching the pinning structure's period, whereas no fields matching the stripe width have been observed, as it was reported previously [D. Jaque et al., Appl. Phys. Lett. 81, 2851 (2002)] for Nb films grown on periodically distributed submicrometric lines of Ni.
We present experimental results and theoretical simulations of the adsorption behavior of the met... more We present experimental results and theoretical simulations of the adsorption behavior of the metal-organic precursor Co2(CO)8 on SiO2 surfaces after application of two different pre-treatment steps, namely by air plasma cleaning or a focused electron beam pre-irradiation. We observe a spontaneous dissociation of the precursor molecules as well as auto-deposition of cobalt on the pre-treated SiO2 surfaces. We also find that the differences in metal content and relative stability of these deposits depend on the pre-treatment conditions of the substrate. Transport measurements of these deposits are also presented. We are led to assume that the degree of passivation of the SiO2 surface by hydroxyl groups is an important controlling factor in the dissociation process. Our calculations of various slab settings using dispersion corrected density functional theory support this assumption. We observe physisorption of the precursor molecule on a fully hydroxylated SiO2 surface (untreated sur...
Journal of Physics D: Applied Physics, 2014
ABSTRACT We investigate the influence of local magnetic field on the spin-dependent transport pro... more ABSTRACT We investigate the influence of local magnetic field on the spin-dependent transport properties of magnetic granular metals. By means of electron-beam-induced-deposition we fabricate a complex granular system made of Co nanopillars embedded in a Pt-C nano-granular metal matrix. We identify two different spin-dependent tunnelling regimes. In the first one, transport occurs almost exclusively through the nano-granular Pt-C matrix and it is affected by the local stray field due to the Co nanopillars. In the second regime, the transport takes place through both the Pt-C matrix and the Co nanopillars. These two transport regimes are discriminated by the different sign of the magnetoresistance. In particular, a strong enhancement of the magnetoresistance is found at low temperatures in the second regime, which is caused by spin-flip scattering and higher order tunnelling processes.
Beilstein Journal of Nanotechnology, 2012
We present experimental results and theoretical simulations of the adsorption behavior of the met... more We present experimental results and theoretical simulations of the adsorption behavior of the metal–organic precursor Co2(CO)8 on SiO2 surfaces after application of two different pretreatment steps, namely by air plasma cleaning or a focused electron beam pre-irradiation. We observe a spontaneous dissociation of the precursor molecules as well as autodeposition of cobalt on the pretreated SiO2 surfaces. We also find that the differences in metal content and relative stability of these deposits depend on the pretreatment conditions of the substrate. Transport measurements of these deposits are also presented. We are led to assume that the degree of passivation of the SiO2 surface by hydroxyl groups is an important controlling factor in the dissociation process. Our calculations of various slab settings, using dispersion-corrected density functional theory, support this assumption. We observe physisorption of the precursor molecule on a fully hydroxylated SiO2 surface (untreated surfa...
Modern Electronic Materials, 2015
Nanotechnology, 2015
In the majority of cases nanostructures prepared by focused electron beam induced deposition (FEB... more In the majority of cases nanostructures prepared by focused electron beam induced deposition (FEBID) employing an organometallic precursor contain predominantly carbon-based ligand dissociation products. This is unfortunate with regard to using this high-resolution direct-write approach for the preparation of nanostructures for various fields, such as mesoscopic physics, micromagnetism, electronic correlations, spin-dependent transport and numerous applications. Here we present an in-situ cleaning approach to obtain pure Co-FEBID nanostructures. The purification procedure lies in the exposure of heated samples to a H 2 atmosphere in conjunction with the irradiation by low-energy electrons. The key finding is that the combination of annealing at 300 • C, H 2 exposure and electron irradiation leads to compact, carbon-and oxygen free Co layers down to a thickness of about 20 nm starting from as-deposited Co-FEBID structures. In addition to this, in temperature-dependent electrical resistance measurements on post-processed samples we find a typical metallic behavior. In low-temperature magneto-resistance and Hall effect measurements we observe ferromagnetic behavior. arXiv:1504.01945v1 [cond-mat.mes-hall] 8 Apr 2015
Physica C: Superconductivity, 2013
ABSTRACT An analysis of the interrelated changes in the material composition and the pinning stre... more ABSTRACT An analysis of the interrelated changes in the material composition and the pinning strength in nanostructured Nb (1 1 0) thin films is presented. The nanopatterns were prepared by focused ion beam milling of an array of uniaxial grooves. They induce a washboard-like pinning potential landscape for vortices in the mixed state. By applying different magnetic fields, the most likely pinning sites along which the flux lines move through the samples have been selected. By this, either the background isotropic pinning of the pristine film or the enhanced isotropic pinning originating from the nanoprocessing has been probed. The enhanced pinning strength in the processed films has been found to correlate with the content of Ga implanted into the films during the nanopatterning.
New Journal of Physics, 2012
A careful analysis of the magneto-transport properties of epitaxial nanostructured Nb thin films ... more A careful analysis of the magneto-transport properties of epitaxial nanostructured Nb thin films in the normal and the mixed state is performed. The nanopatterns were prepared by focused ion beam (FIB) milling. They provide a washboard-like pinning potential landscape for vortices in the mixed state and simultaneously cause a resistivity anisotropy in the normal state. Two matching magnetic fields for the vortex lattice with the underlying nanostructures have been observed. By applying these fields, the most likely pinning sites along which the flux lines move through the samples have been selected. By this, either the background isotropic pinning of the pristine film or the enhanced isotropic pinning originating from the nanoprocessing have been probed. Via an Arrhenius analysis of the resistivity data the pinning activation energies for three vortex lattice parameters have been quantified. The changes in the electrical transport and the pinning properties have been correlated with the results of the microstructural and topographical characterization of the FIB-patterned samples. Accordingly, along with the surface processing, FIB milling has been found to alter the material composition and the degree of disorder in as-grown films. The obtained results provide further insight into the pinning mechanisms at work in FIB-nanopatterned superconductors, e.g. for fluxonic applications.
Nanotechnology, 2012
CoPt-C binary alloys have been fabricated by focused-electron-beam-induced deposition by the simu... more CoPt-C binary alloys have been fabricated by focused-electron-beam-induced deposition by the simultaneous use of Co₂(CO)₈ and (CH₃)₃CH₃C₅H₄Pt as precursor gases. The alloys are made of CoPt nanoparticles embedded in a carbonaceous matrix. TEM investigations show that as-grown samples are in an amorphous phase. By means of a room temperature low-energy electron irradiation treatment the CoPt nanoparticles transform into face-centered tetragonal L1₀ nanocrystallites. In parallel, the system undergoes a transition from a superparamagnetic to a ferromagnetic state at room temperature. By variation of the post-growth irradiation dose the electrical and magneto-transport properties of the alloy can be continuously tuned.
Physica C-superconductivity and Its Applications, 2011
An advanced mask-less nanofabrication technique, focused electron beam-induced deposition (FEBID)... more An advanced mask-less nanofabrication technique, focused electron beam-induced deposition (FEBID), has been employed on epitaxial Nb thin films to prepare ferromagnetic decorations in the form of an array of Co stripes. These substantially modify the non-patterned films' superconducting properties, providing a washboard-like pinning potential landscape for the vortex motion. At small magnetic fields B ≤ 0.1 T, vortex lattice matching effects have been investigated by magneto-transport measurements.