Category archives: Condensed matter

Ultrasensitive molecular sensing with surface-enhanced infrared absorption (SEIRA)

Ultrasensitive molecular sensing with surface-enhanced infrared absorption (SEIRA)

Condensed matterMaterialsNanotechnologyQuantum physics

By César Tomé

Sensors are essential tools for detecting and analysing trace molecules in a variety of fields, including environmental monitoring, food safety, and public health. However, developing sensors with high enough sensitivity to detect these tiny amounts of molecules remains a challenge. One promising approach is surface-enhanced infrared absorption (SEIRA), which uses plasmonic nanostructures to amplify the […]

First experimental evidence of hopfions in crystals

First experimental evidence of hopfions in crystals

Condensed matterMaterialsPhysics

By César Tomé

Hopfions, magnetic spin structures predicted decades ago, have become a hot and challenging research topic in recent years. The first experimental evidence has just been presented in Nature . A deeper understanding of how different components of materials function is important for the development of innovative materials and future technology. The research field of spintronics […]

Purple bronze, from insulator to superconductor and back

Purple bronze, from insulator to superconductor and back

Condensed matterQuantum physics

By César Tomé

Purple bronze Scientists have discovered a rare phenomenon that could hold the key to creating a ‘perfect switch’ in quantum devices which flips between being an insulator and superconductor. The research found these two opposing electronic states exist within lithium molybdenum purple bronze, a unique one-dimensional metal composed of individual conducting chains of atoms. Tiny […]

Milestone in the quest for THz magnonic devices working at room temperature

Milestone in the quest for THz magnonic devices working at room temperature

Condensed matterDIPC Advanced materialsMaterials

By DIPC

Magnons or spin waves are elementary quasiparticles, which represent a collective motion of magnetic moments in ordered systems. Spin waves can propagate in materials and therewith transport a spin current. This spin flow requires no electrical charge transport and therefore no electrical losses creating Joule heating. Spin waves enclose a wide frequency range, from gigahertz […]

A topological pair-density-wave of spin-triplet Cooper pairs

A topological pair-density-wave of spin-triplet Cooper pairs

Condensed matterMaterials

By César Tomé

pair-density-wave Scientists have revealed a new phase of matter in candidate topological superconductors that could have significant consequences for condensed matter physics and for the field of quantum computing and spintronics. Researchers at the Macroscopic Quantum Matter Group at Cornell University have discovered and visualized a crystalline yet superconducting state in a new and unusual […]

Tunneling electrons excite a superconducting pair-breaking transition in the presence of magnetic impurities

Tunneling electrons excite a superconducting pair-breaking transition in the presence of magnetic impurities

Condensed matterDIPC Advanced materialsMaterialsQuantum physics

By DIPC

The development of superconducting devices was greatly stimulated after the acceptance of the basic theory of superconductivity proposed in 1957 by John Bardeen, Leon Cooper, and Robert Schrieffer – BCS theory. The basic idea is that the electron waves in the superconducting state no longer act independently, as in Bloch’s model. Instead, they are paired […]

Substrate dependency of the charge density wave orders of monolayer VSe<sub>2</sub>

Substrate dependency of the charge density wave orders of monolayer VSe2

Condensed matterDIPC Advanced materialsMaterials

By DIPC

Two-dimensional (2D) materials are an ideal platform to artificially engineer heterostructures with new functionalities due to the weak van der Waals bonding between layers. Monolayers hosting symmetry-broken phases, such as superconductivity, magnetism, ferroelectricity, charge density waves (CDWs), or multiferroicity, represent the most interesting building blocks to design novel phases of matter. One of the main […]

First real-space images of THz plasmon polaritons

First real-space images of THz plasmon polaritons

Condensed matterMaterialsQuantum physics

By César Tomé

Polaritons attract wide attention due to their ability to confine and guide light at the nanometre scale. These capacities are key for the development of ultrasmall resonators and waveguides that can be used for sensing, heat transfer and optical circuitry applications. But, what are polaritons in the first place? If, for the sake of the […]

Engineering quantum states and electronic landscapes

Engineering quantum states and electronic landscapes

Condensed matterDIPC InterfacesMaterialsQuantum physics

By DIPC

Surfaces are at the frontier of every solid. They provide versatile supports for functional nanostructures and mediate essential physicochemical processes. Intimately related to two-dimensional materials, interfaces and atomically thin films often feature distinct electronic states with respect to the bulk, which is key to many relevant properties, such as catalytic activity, interfacial charge-transfer, and crystal […]