Publications by authors named "M S Bahramy"
Article Synopsis
- * A photoemission and density-functional theory study was conducted on three compounds to explore how different intercalant elements affect their electronic structures at both the bulk and surface levels.
- * Findings reveal that as the atomic number of the intercalant increases, there’s greater hybridization with NbS-derived conduction states, resulting in the formation of new electronic states at the Fermi level, which explains previously observed anomalous states and sheds light on tuning magnetic interactions.
Background: Severe post-vaccination neurological complications are rare. Chronic Inflammatory Demyelinating Polyneuropathy (CIDP) is an immune-mediated polyneuropathy affecting the peripheral nerve roots, which is not well described as a post-vaccination side effect. Here, we present a rare complication of vaccination against SARS-CoV-2, reaching a diagnosis of CIDP.
View Article and Find Full Text PDFKey Clinical Message: We reported a pediatric case of SuS with a complete diagnosis triad. Although the optimal treatment of SS is unclear, prompt diagnosis and treatment can result in almost a complete recovery.
Abstract: Susac's syndrome (SuS) is a rare, autoimmune disorder known as a typical triad of sensorineural hearing impairment, central nervous system involvement, and multiple branch retinal artery occlusions (BRAOs).
Two-dimensional superconductivity is primarily realized in atomically thin layers through extreme exfoliation, epitaxial growth, or interfacial gating. Apart from their technical challenges, these approaches lack sufficient control over the Fermiology of superconducting systems. Here, we offer a Fermiology-engineering approach, allowing us to desirably tune the coherence length of Cooper pairs and the dimensionality of superconducting states in arsenic phosphides AsP under hydrostatic pressure.
View Article and Find Full Text PDFTwo-dimensional (2D) topological insulators (TIs) hold great promise for future quantum information technologies. Among the 2D-TIs, the TiNI monolayer has recently been proposed as an ideal material for achieving the quantum spin Hall effect at room temperature. Theoretical predictions suggest a sizable bandgap due to the spin-orbit coupling (SOC) of the electrons at and near the Fermi level with a nontrivial topology of the electronic states, which is robust under external strain.
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