Transporte e Información en Sistemas Cuánticos

La comprensión de los fenómenos complejos cuánticos desempeña un papel clave en el desarrollo de las tecnologías cuánticas, identificadas como una de las áreas más estratégicas para la investigación y la innovación futuras.

En esta línea de investigación nos dedicamos a cuestiones relacionadas con el transporte cuántico de carga (nanoelectrónica), espín (espintrónica), energía (termoelectricidad) e información (correlaciones cuánticas), con especial énfasis en las nanoestructuras. Además, investigamos los efectos de la decoherencia en entornos complejos, exploramos sondas cuánticas y fenómenos emergentes como la sincronización, con un enfoque en las correlaciones y la termodinámica cuánticas y su impacto en el procesamiento de la información.

En IFISC administramos tanto la plataforma QTD, anunciando eventos y plazas entre las redes de científicos que trabajan en termodinámica cuántica, como la web de la QTTS, una sociedad dedicada a la investigación de la termodinámica de sistemas cuánticos y el transporte cuántico.


Investigadores

  • Gian Luca Giorgi

    Gian Luca Giorgi

  • Rosa Lopez

    Rosa Lopez

  • David Sánchez

    David Sánchez

  • Llorenç Serra

    Llorenç Serra

  • Roberta Zambrini

    Roberta Zambrini

  • Michael Moskalets

    Michael Moskalets

Recent and ongoing Research projects

MAGMA

MAGNETIC TOPOLOGICAL INSULATORS FOR ROBUST MAJORANA BOUND STATES

I.P.: Llorenç Serra
Magnetic topological insulators (MTIs) display a fascinating interplay between magnetic order and topologically nontrivial band structures. In the MAGMA project (“Magnetic topological insulators for robust Majorana bound states”), which is funded by ...

CoQHoNet

Connecting Quantum Hopfield Networks

I.P.: Roberta Zambrini
CoQHoNet is a Marie Curie European Postdoctoral Fellowships, which allows the hiring of Dr. Eliana Fiorelli to execute the following research project: Classical Neural Networks (NNs) are architectures successfully employed in Machine ...

QuaResC

Quantum machine learning using reservoir computing

I.P.: Miguel C. Soriano, Roberta Zambrini
The QuaResC project engages in a new collaboration UIB and CSIC researchers at IFISC with the objective to address an interdisciplinary topic between artificial intelligence and quantum physics: quantum machine learning using ...

QuTTNAQMa

TRANSPORTE CUANTICO Y TERMODINAMICA: NUEVAS AVENIDAS EN MATERIALES CUANTICOS

I.P.: Rosa Lopez, Llorenç Serra
The aim of this project is to investigate the heat and energy transport properties in nanoconductors considering complex phenomena due to either many-body interactions and/or the presence of quantum materials.

MdM-IFISC-2

Maria de Maeztu 2023-2026

I.P.: Ernesto Estrada, Ingo Fischer, Emilio Hernández-García, Rosa Lopez, Claudio Mirasso, Jose Javier Ramasco, Raúl Toral, Roberta Zambrini
After 15 years of its existence, IFISC can point to a proven track record of impactful research. The previous 2018-2022 MdM award has significantly enhanced the institute's capabilities, as demonstrated by an ...

CoQuSy

Complex Quantum Systems: machine learning, thermodynamics, and emergent phenomena

I.P.: Gian Luca Giorgi, Gonzalo Manzano, Roberta Zambrini
CoQuSy is a coordinated project and joins all the researchers at IFISC (belonging either to CSIC or UIB) working in the common line of complex quantum systems. The coordination is motivated by ...

QNet

Transport, metastability, and neuromorphic applications in quantum networks

I.P.: Gian Luca Giorgi, Roberta Zambrini
QNet is a European project funded under the call Quantera 2023. The consortium is coordinated by Ticijana Ban from the Institute of Physics, Zagreb, and is also composed of IFISC, Universität des ...

CoQuaDis

Collective quantum phenomena in dissipative systems – towards time-crystal applications in sensing and metrology

I.P.: Roberta Zambrini
This project seeks to identify and realize quantum resources yielding a possible quantum advantage by exploiting collective phenomena in open systems. The benefit of this approach is that it does not rely ...

QTD-InFlexity

Quantum thermodynamics: information, fluctuations and complexity

I.P.: Gonzalo Manzano
In the last two decades, thermodynamics has been extended to describe small systems, where the action of environmental noise “blurs” traditional thermodynamic constraints and information plays a central role. While the first ...

Quantum Spain

Quantum Spain

I.P.: Roberta Zambrini
Reserach topic: QUANTUM MACHINE LEARNING Convenio en el BOE: https://www.boe.es/diario_boe/txt.php?id=BOE-A-2023-18333 IFISC participation both as UIB and as CSIC (2 separate budgets)

AIHUB

AIHUB

I.P.: Jose Javier Ramasco
HUB CSIC for fomenting the research and services on Artificial Intelligence.

Publicaciones recientes

A cross-disciplinary research framework at institution level and beyond

Argyris, Apostolos; Hernández-García, Emilio; San Miguel, Maxi
Nature Communications 15, 10399 (1-3) (2024)

Role of coherence in many-body Quantum Reservoir Computing

Palacios, A; Martínez-Peña, R.; Soriano, M. C.; Giorgi, G. L.; Zambrini, R.
Communications Physics 7, 369 (2024)

Bosonic Mpemba effect with non-classical states of light

Longhi, Stefano
APL Quantum 1, 046110 (1-7) (2024)

Subdiffusive dynamics in photonic random walks probed with classical light

Longhi, Stefano
Optics Letters 49, 5989-5992 (2024)

Information-to-energy conversion in an autonomous thermal machine

Trigal, Lucas (Supervisors: Manzano, Gonzalo; López, Rosa)
Master Thesis (2024)

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