Category archives: Quantum physics

Validity of the Kibble-Zurek mechanism for Ising domains

Validity of the Kibble-Zurek mechanism for Ising domains

DIPC Quantum SystemsPhysicsQuantum physics

By DIPC

Phase transitions and their related phenomena lie at the core of modern statistical mechanics and condensed matter physics. At equilibrium, an intriguing aspect of second-order phase transitions is that systems with distinct order parameters can be described by the same set of static critical exponents, a hallmark of universality. Thomas Kibble’s research on phase transitions […]

NOF approximations applied to iron(II) porphyrin

NOF approximations applied to iron(II) porphyrin

DIPC Computational and Theoretical ChemistryQuantum physics

By DIPC

As early as the 1970s, it was suggested that one-particle reduced density matrix functional theory could be an attractive alternative formalism to wave function-based methods. Unfortunately, calculations based on exact functionals generated by the constrained-search formulation are computationally too expensive, which has prompted the development of approximate functionals for practical applications. The functionals currently in […]

A topological amorphous alloy

A topological amorphous alloy

MaterialsPhysicsQuantum physics

By César Tomé

amorphous Scientists have dedicated their efforts to studying topological materials, focusing on the shape, or topology, of their electronic structures. These materials exhibit unique properties that have the potential to be harnessed for next-generation devices, despite their invisible nature in real space. Initially, it was believed that only crystalline materials, characterized by highly ordered atoms […]

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 […]

Universal power-law Kibble-Zurek scaling in fast quenches

Universal power-law Kibble-Zurek scaling in fast quenches

DIPC Quantum SystemsPhysicsQuantum physics

By DIPC

Thomas Kibble’s research on phase transitions and topological defects is most significant. Actually, the Kibble-Zurek mechanism (KZM) is a paradigmatic theory to describe the dynamics across both classical continuous phase transitions and quantum phase transitions. The Kibble-Zurek mechanism describes the non-equilibrium dynamics and the formation of topological defects in a system which is driven through […]

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 […]

Correlated electron-phonon physics in nanotube quantum simulators

Correlated electron-phonon physics in nanotube quantum simulators

DIPC Quantum SystemsQuantum physics

By DIPC

In the search for novel materials, the simulation of quantum matter is an extremely demanding computational task, which is expected to profit substantially from the surge of quantum technologies. Quantum algorithms for programmable quantum computers offer the most flexible approaches, but tailor-made quantum simulators are particularly well suited for large-scale simulations. For instance, tremendous efforts […]

Quantum interference between dissimilar particles

Quantum interference between dissimilar particles

PhysicsQuantum physics

By César Tomé

Nuclear physicists have found a new way to see details inside atomic nuclei . They do so by tracking interactions between photons and gluons—the gluelike particles that hold together the building blocks of protons and neutrons. The method relies on harnessing a new type of quantum interference between two dissimilar particles. Tracking how these entangled […]

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 […]

The dawn of the quantum network: quantum interference over 300 km of optical fiber

The dawn of the quantum network: quantum interference over 300 km of optical fiber

Computer scienceCondensed matterPhysicsQuantum physics

By César Tomé

Last year’s Nobel Prize in Physics celebrated the fundamental interest of quantum entanglement, and also envisioned the potential applications in “the second quantum revolution” — a new age when we are able to manipulate the weirdness of quantum mechanics, including quantum superposition and entanglement. A large-scale and fully functional quantum network is the holy grail […]