Editorial board
Editor in Chief
Expert in quantum mesoscopic physics and nanotechnology, with a strong focus on nanoscale quantum phenomena and advanced mesoscopic materials and structures.
Deputy Editors
Expert in quantum-dimensional phenomena, scanning probe microscopy, and superconductivity in mesoscopic and hybrid systems, especially where local nanoscale physics is linked to functional quantum structures.
Expert in the theory of superconducting and magnetic mesoscopic systems, with particular emphasis on the interplay between superconductivity, magnetism, and hybrid quantum structures.
Associate Editors
Expert in optics and mesoscopic sensors, with broad research interests in optical methods for probing, controlling, and engineering functional mesoscale systems.
Expert in the theory of superconductivity and magnetism, especially in systems where superconducting and magnetic phenomena coexist, compete, or mutually influence one another.
Expert in mesoscopic phenomena in solid-state physics, with a strong interest in quantum behavior emerging in spatially confined and low-dimensional systems.
Expert in superconductivity, vortex matter, mesoscopic superconductors, magnetic-superconducting hybrid systems, and Ginzburg-Landau modeling, with publication-based work spanning vortex loops, confined vortex phases, and surface superconductivity.
Expert in nanophotonics, angle photonics, and near-field optics, with publication-based work focused on nanoscale light-matter interaction and the design of functional nano-optical devices.
Expert in high-frequency research methods for magnetic and superconducting quantum systems, particularly in the characterization of coupled quantum platforms using microwave and related high-frequency techniques.
Expert in the theory of superconductivity and topologically protected systems, with broad authority in superconducting coherence, quantum transport, and hybrid quantum structures.
Expert in optics and terahertz spectroscopy, especially in spectroscopic approaches to low-energy excitations and electrodynamic properties of condensed-matter systems.
Expert in experimental condensed matter physics of correlated electron systems, including strongly interacting materials where superconductivity and collective electronic behavior play a central role.
Expert in the theory of superconductivity, with long-standing relevance to the microscopic and phenomenological description of superconducting materials and structures.
Expert in quantum devices, particularly in the physical principles and implementation of functional mesoscopic and nanoscale quantum platforms.
Expert in 3D micro-/nano-fabrications and applications, with strong relevance to the development of functional nanostructures and device-oriented fabrication strategies.
Expert in condensed-matter theory, strongly correlated electron systems, superconductivity, magnetism, and spin-glass physics, with publication-based work spanning Kondo-lattice compounds, disordered magnetic systems, and mesoscopic superconducting structures.
Expert in the theory of superconductivity, especially in problems involving mesoscopic behavior, reduced dimensionality, and superconducting nanosystems.
Expert in electrochemical nanostructuring, porous anodic alumina, photonic architectures, and template-assisted synthesis of functional nanomaterials and nanostructures.
Expert in magnonics, spin-wave dynamics, and microwave and terahertz magnetic systems, with major publication activity in spin-wave devices and magnon-based information-processing concepts.
Expert in magnetic topological materials and intrinsic magnetic topological insulators, with publication-based work on topology-driven quantum states in magnetic and correlated materials.
Expert in the theory of quantum devices and topologically protected systems, with a strong focus on the conceptual foundations and functionality of mesoscopic quantum systems.
Expert in mesoscopic phenomena in solid-state physics, particularly in quantum states and condensed-matter effects that become visible at nanoscopic and mesoscopic length scales.
Expert in electron transport in hybrid superconducting structures, especially in superconducting heterostructures where transport properties reveal the physics of coupled quantum states.
Expert in nanoscale superconductivity, quantum confinement, superconducting nanowires and nanofilms, and size-dependent superconducting phenomena in reduced dimensions.
Expert in high-temperature and low-temperature superconducting magnets for a wide range of scientific and industrial applications, with a strong applied focus on superconducting systems engineering.
Expert in superconductivity and spin phenomena, particularly in systems where magnetic effects strongly influence superconducting behavior and hybrid functionality.
Expert in the physical properties of systems with reduced dimensionality and/or structural disorder, and in the creation of functional nano- and microelectronic devices based on them.
Expert in nanostructured superconductor/ferromagnet hybrids, vortex pinning, electromigration, and magneto-optical imaging, with strong relevance to engineered superconducting functionality.
Expert in superconducting digital electronics, including device concepts at the intersection of superconductivity, nanotechnology, and emerging quantum hardware.
Expert in the theory of spin phenomena in superconducting hybrid structures, especially in superconducting spintronics and magnetically tunable superconducting states.
Expert in ferroelectricity, piezoelectricity, crystallography, phase transitions, and structure-property relationships in functional condensed-matter systems.
Expert in spectroscopy of new quantum states, with a strong interest in emergent electronic states revealed by advanced local and spectroscopic methods.
Expert in photoemission studies of the electronic and spin structure of quantum materials, especially in surface, interface, and band-structure physics.
Expert in theoretical quantum materials and superconductivity, with publication-based work spanning mesoscopic superconducting phenomena, quantum dynamics, and data-driven modeling approaches.
Expert in synchrotron-based spectroscopies, including ARPES, RIXS, and XMCD, for the study of quantum and functional materials.
Expert in single-crystal growth and the physical properties of quantum materials, including topological materials, Kagome systems, unconventional superconductors, and 2D materials.
Expert in nanoscale quantum structures, physics, and devices, including the construction, measurement, design, and atomic-scale application of new quantum nanostructures.
Expert in topological insulators, surface and interface chemistry, synchrotron-based characterization, and the electronic and spin structure of quantum materials, including graphene-based and spintronic systems.
Expert in superconductivity, vortex matter, mesoscopic superconductors, pinning phenomena, and superconducting nanowires, with publication-based work spanning both theoretical studies of vortex dynamics and the synthesis and characterization of advanced superconducting materials.
Technical Editors
Grammar correction and proof preparation
Technical assistance in the submission process
Technical assistance in the submission process
Technical assistance in the submission process
Technical director