On Wednesday the poster presenters will be online and available to have chat with you.
You are also welcome to contribute with your questions and comments or join a discussion with the poster presenter in this page.
Presenter |
Title |
| Alba Crescente (University of Genova) | Charging, energy fluctuations and dissipation of a two-level quantum battery |
| Alexander Teretenkov (Steklov Mathematical Institute of Russian Academy of Sciences) | Approximation of non-Markovian dynamics by Markovian one in all orders of perturbation theory |
| Andreu Riera-Campeny (UAB Universitat Autònoma de Barcelona) | Quantum systems correlated with a finite bath: nonequilibrium dynamics and thermodynamics |
| Anton Trushechkin (Steklov Mathematical Institute of Russian Academy of Sciences) | Entropy Production, Decoherence, and Non-Equilibrium Steady States of the GKSL equation |
| Archak Purkayastha (Trinity College Dublin) | The relation between two different ways of calculating transport coefficients |
| Aurelia Chenu (DIPC) | Engineering dissipation to control thermalization |
| Björn Annby-Andersson (Lund University) | Quantum master equation for continuous feedback control |
| Chung-Yun Hsieh (ICFO) | Resouce Preservability and Thermodynamics |
| Donato Farina (Scuola Normale Superiore of Pisa) | Beyond local and global approaches for localized dissipation |
| Gianmichele Blasi (Scuola Normale Superiore di Pisa) | Nonlocal thermoelectricity in hybrid Topological Josephson junctions |
| Graeme Berk (Monash University) | Resource theories of multi-time processes: A window into non-Markovianity |
| Irene D’Amico (University of York) | Density and state metrics to measure adiabaticity in quantum many-body systems at zero and finite temperature |
| João Sambino (TU WIen and Instituto Superior Técnico) | Quantum Field Machines |
| Jonas Floriano Gomes dos Santos (Federal University of ABC) | Performance of a quantum Otto refrigerator based on non-Markovian dynamics |
| Kyrylo Simonov (University of Vienna) | Ergotropy from indefinite causal orders |
| Léa Bresque (Institut Neel) | Two qubits engine fueled by entanglement and local measurement |
| Luis A. Correa (University of Exeter) | Local master equations bypass the secular approximation |
| Marcin Lobejko (Univeristy of Gdansk) | Thermodynamics of minimal-coupling quantum heat engines |
| Marco Cattaneo (IFISC (UIB) and University of Turku) | Collision models can efficiently simulate any multipartite Markovian dynamics |
| María García Díaz (Universitat Autònoma de Barcelona) | Quantum work statistics with initial coherence |
| Mohit Lal Bera (ICFO) | Attaining Carnot Efficiency with Quantum and Nano-scale Heat Engines |
| Nadja K. Bernardes (Universidade Federal de Pernambuco) | Continuous Monitoring of Energy in Quantum Open Systems |
| Obinna Abah (Queen’s University Belfast) | Quantum state engineering by shortcuts-to-adiabaticity |
| Paolo Andrea Erdman (Scuola Normale Superiore) | Fast and accurate Cooper pair pump |
| Patrice Camati (Institut Néel – CNRS) | Experimental measurement of entropy production for decorrelation processes |
| Patryk Lipka-Bartosik (University of Bristol) | All states are universal catalysts in quantum thermodynamics |
| Rafael Sánchez (Universidad Autónoma de Madrid) | Andreev-Coulomb drag in coupled quantum dot systems |
| Shishir Khandelwal (University of Geneva) | Critical heat current for operating an entanglement engine |
| Thiago R. de Oliveira (Universidade Federal Fluminense) | Counter-intuitive properties of a simple quantum heat engine |