188 research outputs found
Reversible Aphasia in Adolescence: A Late-Onset form of Landau Kleffner Syndrome? Report of a Single Case
An adolescent boy developed a long-lasting pattern of global aphasia, concomitant to focal (left temporal) EEG abnormalities; this was followed by complete recovery. Laboratory and neuroimaging studies were within normal limits. The possibility of a late-onset Landau Kleffner syndrome is discussed
Exploiting the close-to-dirac point shift of the Fermi level in the Sb2Te3/Bi2Te3 topological insulator heterostructure for spin-charge conversion
Exploiting the close-to-Dirac point shift of Fermi level in Sb2Te3/Bi2Te3 topological insulator heterostructure for spin-charge conversion
Properly tuning the Fermi level position in topological insulators is of
vital importance to tailor their spin-polarized electronic transport and to
improve the efficiency of any functional device based on them. Here we report
the full in situ Metal Organic Chemical Vapor Deposition (MOCVD) and study of a
highly crystalline Bi2Te3/Sb2Te3 topological insulator heterostructure on top
of large area (4'') Si(111) substrates. The bottom Sb2Te3 layer serves as an
ideal seed layer for the growth of highly crystalline Bi2Te3 on top, also
inducing a remarkable shift of the Fermi level to place it very close to the
Dirac point, as visualized by angle-resolved photoemission spectroscopy. In
order to exploit such ideal topologically-protected surface states, we
fabricate the simple spin-charge converter Si(111)/Sb2Te3/Bi2Te3/Au/Co/Au and
spin-charge conversion (SCC) is probed by spin pumping ferromagnetic resonance.
A large SCC is measured at room temperature, which is interpreted within the
inverse Edelstein effect (IEE), thus resulting in a conversion efficiency
lambda_IEE of 0.44 nm. Our results demonstrate the successful tuning of the
surface Fermi level of Bi2Te3 when grown on top of Sb2Te3 with a full in situ
MOCVD process, which is highly interesting in view of its future technology
transfer.Comment: Main text: 19 pages, 6 figures. Supplementary information are also
included in the file with additional 4 page
Reversible Aphasia in Adolescence: A Late-Onset form of Landau Kleffner Syndrome? Report of a Single Case
An adolescent boy developed a long-lasting pattern of global aphasia, concomitant to focal (left temporal) EEG abnormalities; this was followed by complete recovery. Laboratory and neuroimaging studies were within normal limits. The possibility of a late-onset Landau Kleffner syndrome is discussed
Minimal fluoroscopy approach for right-sided supraventricular tachycardia ablation with a novel ablation technology: Insights from the multicenter CHARISMA clinical registry
Substrate and Trigger Ablation for Reduction of Atrial Fibrillation (STAR AF): a randomized, multicentre, international trial†
Anisotropy of the electric field gradient in two-dimensional α-MoO3 investigated by 57Mn(57Fe) emission Mössbauer spectroscopy
Van der Waals α-MoO3 samples offer a wide range of attractive catalytic, electronic, and optical properties. We present herein an emission Mössbauer spectroscopy (eMS) study of the electric-field gradient (EFG) anisotropy in crystalline free-standing α-MoO3 samples. Although α-MoO3 is a two-dimensional (2D) material, scanning electron microscopy shows that the crystals are 0.5-5-µm thick. The combination of X-ray diffraction and micro-Raman spectroscopy, performed after sample preparation, provided evidence of the phase purity and crystal quality of the samples. The eMS measurements were conducted following the implantation of 57Mn (t1/2 = 1.5 min), which decays to the 57Fe, 14.4 keV Mössbauer state. The eMS spectra of the samples are dominated by a paramagnetic doublet (D1) with an angular dependence, pointing to the Fe2+ probe ions being in a crystalline environment. It is attributed to an asymmetric EFG at the eMS probe site originating from strong in-plane covalent bonds and weak out-of-plane van der Waals interactions in the 2D material. Moreover, a second broad component, D2, can be assigned to Fe3+ defects that are dynamically generated during the online measurements. The results are compared to ab initio simulations and are discussed in terms of the in-plane and out-of-plane interactions in the system
Experimental and theoretical study of electronic and hyperfine properties of hydrogenated anatase (TiO): defects interplay and thermal stability
In this study we report on the results from emission Fe
Mssbauer Spectroscopy experiments, using dilute Mn implantation
into pristine (TiO) and hydrogenated anatase held at temperatures between
300-700 K. Results of the electronic structure and local environment are
complemented with ab-initio calculations. Upon implantation both Fe and
Fe are observed in pristine anatase, where the latter demonstrates the
spin-lattice relaxation. The spectra obtained for hydrogenated anatase show no
Fe contribution, suggesting that hydrogen acts as a donor. Due to the
low threshold, hydrogen diffuses out of the lattice. Thus showing a dynamic
behavior on the time scale of the Fe 14.4 keV state. The surrounding
oxygen vacancies favor the high-spin Fe state. The sample treated at
room temperature shows two distinct processes of hydrogen motion. The motion
commences with the interstitial hydrogen, followed by switching to the
covalently bound state. Hydrogen out-diffusion is hindered by bulk defects,
which could cause both processes to overlap. Supplementary UV-Vis and
electrical conductivity measurements show an improved electrical conductivity
and higher optical absorption after the hydrogenation. X-ray photoelectron
spectroscopy at room temperature reveals that the sample hydrogenated at 573 K
shows presence of both Ti and Ti states. This could imply that a
significant amount of oxygen vacancies and -OH bonds are present in the
samples. Theory suggests that in the anatase sample implanted with Mn(Fe),
probes were located near equatorial vacancies as next-nearest-neighbours,
whilst a metastable hydrogen configuration is responsible for the annealing
behavior
Measurement of the Charged Multiplicities in b, c and Light Quark Events from Z0 Decays
Average charged multiplicities have been measured separately in , and
light quark () events from decays measured in the SLD experiment.
Impact parameters of charged tracks were used to select enriched samples of
and light quark events, and reconstructed charmed mesons were used to select
quark events. We measured the charged multiplicities:
,
, from
which we derived the differences between the total average charged
multiplicities of or quark events and light quark events: and . We compared
these measurements with those at lower center-of-mass energies and with
perturbative QCD predictions. These combined results are in agreement with the
QCD expectations and disfavor the hypothesis of flavor-independent
fragmentation.Comment: 19 pages LaTex, 4 EPS figures, to appear in Physics Letters
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