Miembros de la Red Española de Información Cuántica y Tecnologías Cuánticas co-organizan dos simposios en la Bienal de la Real Sociedad Española de Física en San Sebastián, que tendrá lugar del 15 al 19 de julio de 2024 (https://bienalfisica.org/en/home) – Simposio Información Cuántica (miércoles 17 julio) – Desarrollos en computación cuántica (experimental y teórica) y en teoría de la…
Welcome to the Spanish Network on Quantum Information (RITCE)
Quantum Information
Quantum information is the new language of Quantum Science, describing and explaining the structure of complex quantum systems, entanglement, and their potential for storing, encoding and processing information.
Quantum Technologies
Quantum mechanical systems can be used to enhance common tasks, such as metrology and sensing, as well as to build new forms of computation & cryptography that cannot be beaten by classical devices.
Quantum Simulation
Quantum simulation is the experimental control of atoms, molecules or even solid state devices, to simulate or solve interesting problems from Condensed Matter or Theoretical Physics.
The Spanish Network on Quantum Information (RITCE), promotes research in all of these fields, helping the establishment of collaborations inside the network and with international groups, and promoting the training of new scientists in these topics.
Recent news
- Simposios de tecnologías cuánticas e información cuántica
- Online seminar #19: Photon antibuching measurement using CdSe/ZnS quantum dots as single-emitters
Lidia Lozano Martín (ICCUB) Is it possible to develop an efficient solid-state emitter of single and entangled photons suitable for space to ground communications among other quantum applications? Present single-photon and entangled-photons emitters exhibit important challenges, limiting their use in quantum applications like secure communication based on quantum key distribution (QKD), quantum metrology and sensing.…
- Online seminar #18: Topological phases and entanglement at the boundary of an expanding universe
Carlos Fulgado (IFT) One of the most striking phenomena within the realm of Quantum Field Theory in Curved Spacetimes is the creation of particles as a consequence of the expansion of the universe. We study this effect for the case of Dirac fermions and propose a cold-atom gravitational analogue to implement this effect in controlled…