Transport and Information in Quantum Systems

Understanding of Quantum Complex Phenomena plays a key role in the development of Quantum Technologies identified as one of the most strategic areas for future research and innovation.

In this research line, we are devoted to questions related to quantum transport for charge(nanoelectronics), spin (spintronics), energy (thermoelectrics) and information (quantum correlations), with a particular focus on nanostructures. Moreover, we investigate decoherence effects in complex environments, explore quantum probing, and emergent phenomena such as synchronization, with a focus on quantum correlations and thermodynamics and their impact on information processing.

At IFISC we manage both the QTD platform announcing events and positions among the networks of scientists working on quantum thermodynamics and the QTTS webpage, a society devoted to understanding the thermodynamics of quantum systems and quantum transport.


  • Rosa Lopez

    Rosa Lopez

  • David Sánchez

    David Sánchez

  • Llorenç Serra

    Llorenç Serra

  • Roberta Zambrini

    Roberta Zambrini

  • Gian Luca Giorgi

    Gian Luca Giorgi

  • Sungguen Ryu

    Sungguen Ryu

Recent and ongoing Research projects


Transport in Quantum Materials at the Nanoscale

P.I.: Rosa Lopez, David Sánchez
The aim of TQM@Nano is to examine the transport properties of nanoscale conductors that exhibit features unique to quantum materials (topology, strong correlations). These systems are attracting a good deal attention due ...


Quantum machine learning using reservoir computing

P.I.: 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 ...


Machine learning with quantum reservoir computing

P.I.: Roberta Zambrini
Project funded by the government of the Balearic Islands with the goal of extending Reservoir Computing into the quantum domain. The project is mainly theoretical/numerical, but also deals with the identification of ...


Quantum Technologies Platform

P.I.: Llorenç Serra, Roberta Zambrini
QTEP is a CSIC Interdisciplinary Thematic Platform (PTI). The reference for QTEP is the quantum technologies community that organizes around the Flagship ( and the Quantum Community Network. This community works on ...

Recent Publications

Gaussian states provide universal and versatile quantum reservoir computing

Nokkala, Johannes;Martínez-Peña, Rodrigo;Giorgi, Gian Luca; Parigi, Valentina;Soriano, Miguel C.;Zambrini, Roberta
Submitted (2021)

Phase transitions in a non-Hermitian Aubry-André-Harper model

Longhi, Stefano
Physical Review B 103, 054203 (1-12) (2021)

Maryland model in optical waveguide lattices

Longhi, Stefano
Optics Letters 46, 637-640 (2021)

Influence of Measurements on Continuous Variable Quantum Reservoir Computing

García Beni, Jorge (Advisors: Miguel C. Soriano and Roberta Zambrini)
Master Thesis (2021)

Probing the spectral dimension of quantum network geometries.

Nokkala, Johannes; Piilo, Jyrki; Bianconi, Ginestra
Journal of Physics: Complexity 2, 015001 (2021)

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