Non-equilibrium quantum materials

Our research focuses on theoretical and computational nanophysics. With many-body quantum theory, we study the out-of-equilibrium dynamics of electrons and bosons at small length and short time scales, approximately nanometer and femtosecond orders of magnitude. The goal is to understand the microscopic nature of correlated quantum systems, potentially utilized in next-generation nano- and quantum technologies.

Quantum transport setup of a nanowire driven out of equilibrium

Overview

Core fields of research

Basic natural phenomena and mathematical thinking

Research areas

Nanoscience Center

Materials physics

Second quantum revolution

Faculty

Faculty of Mathematics and Science

Department

Department of Physics

Research group description

Research topics

Ultrafast quantum materials: time-resolved spectroscopies and quantum transport
Coupled out-of-equilibrium dynamics of electrons and bosons
2D materials, excitonic systems, molecular and nanojunctions,
(topological) superconductivity
Theory of non-equilibrium Green's functions, generalized Kadanoff–Baym Ansatz
Time-dependent Landauer–Büttiker theory

Keldysh time-contour, Kadanoff-Baym equations

Recent preprints on arXiv

Teaching

Past

Other participation

Personal Study Plan for BSc

Current

Members

Research group

Group leaders

Riku Tuovinen

Senior Lecturer

Members

Publications

Publication

2025

Nonequilibrium transport through the Hubbard dimer

European Physical Journal: Special Topics.

Pavlyukh, Yaroslav

Tuovinen, Riku

Publication

2025

Open system dynamics in linear time beyond the wide-band limit

Physical Review B.

Pavlyukh, Y.

Tuovinen, R.

Publication

2025

Photon-assisted stochastic resonance in nanojunctions

Physical Review B.

Ridley, Michael

Bellassai, Leo

Moskalets, Michael

Kantorovich, Lev

Tuovinen, Riku

Publication

2025

Thermoelectric Energy Conversion in Molecular Junctions Out of Equilibrium

PRX energy.

Tuovinen, R.

Pavlyukh, Y.

Publication

2024

Cheers : A Linear‐Scaling KBE + GKBA Code

Physica Status Solidi B : Basic Research.

Pavlyukh, Yaroslav

Tuovinen, Riku

Perfetto, Enrico

Stefanucci, Gianluca

Publication

2024

Electroluminescence Rectification and High Harmonic Generation in Molecular Junctions

Nano Letters.

Tuovinen, Riku

Pavlyukh, Yaroslav

Publication

2024

Interacting Electrons in a Flat‐Band System within the Generalized Kadanoff–Baym Ansatz

Physica Status Solidi B : Basic Research.

Cosco, Francesco

Tuovinen, Riku

Lo Gullo, Nicolino

Publication

2023

Time-Linear Quantum Transport Simulations with Correlated Nonequilibrium Green’s Functions

Physical Review Letters.

Tuovinen, R.

Pavlyukh, Y.

Perfetto, E.

Stefanucci, G.

Publication

2016

Phononic heat transport in the transient regime: An analytic solution

Physical Review B.

Tuovinen, Riku

Säkkinen, Niko

Karlsson, Daniel

Stefanucci, Gianluca

van Leeuwen, Robert

Publication

2016

Time-dependent Landauer—Büttiker formalism for superconducting junctions at arbitrary temperatures

Progress in Non-equilibrium Green's Functions. Journal of Physics: Conference Series. Institute of Physics Publishing Ltd.

Tuovinen, Riku

van Leeuwen, Robert

Perfetto, Enrico

Stefanucci, Gianluca

Publication

2016

Time-dependent quantum transport in nanosystems : a nonequilibrium Green's function approach

Research report / Department of Physics, University of Jyväskylä.

Tuovinen, Riku

Publication

2015

Curvature in graphene nanoribbons generates temporally and spatially focused electric currents

Nanoscale.

Gomes da Rocha, Claudia

Tuovinen, Riku

van Leeuwen, Robert

Koskinen, Pekka