Convocazione ai seminari dei tre vincitori ex aequo della procedura selettiva per professore di II fascia - SSD PHYS-04/A CODICE CONCORSO 2025PAE006 (PA quantum).
Aula Careri edificio Marconi CU013 - 1°Piano
Data 12.01.2026
Oratori:
- ore 10: Federico Carollo
- ore 11: Roberto Di Candia
- ore 12: Giuseppe Vitagliano
Per coloro che fossero impossibilitati ad essere presenti vi è la possibilità di seguire tramite il collegamento zoom:
Federico Carollo
Title: Unveiling and harnessing complex dynamics in open quantum systems
Abstract:
Recent advances in experimental platforms and quantum devices have made it possible to probe large-scale complex quantum dynamics and even to monitor them in situ. Building on these opportunities, this seminar explores how such dynamics can be analysed and controlled, bridging fundamental research with emerging technologies.
I will begin with two brief highlights from my work. The first concerns the impact of quantum effects on non-equilibrium phase transitions within models inspired by epidemic spreading. The second provides an overview of rigorous results for systems with long-range interactions, where collective phenomena enable information-processing applications such as pattern recognition.
Next, I will focus on discrete-time open quantum dynamics, realisable on quantum platforms via repeated interactions between a system and auxiliary qubits. Measuring these auxiliary qubits after each interaction generates time-resolved measurement records, known as quantum trajectories. By employing thermodynamic concepts on such trajectories, I will discuss methods to bias the dynamics towards desired behaviour and to identify dynamical phases and phase transitions in trajectory space.
Throughout the seminar, I will mention potential applications of these ideas in quantum simulation, sensing, and computation. I will conclude by outlining ongoing and future research directions, emphasising how these efforts connect within the research environment in Rome.
I will begin with two brief highlights from my work. The first concerns the impact of quantum effects on non-equilibrium phase transitions within models inspired by epidemic spreading. The second provides an overview of rigorous results for systems with long-range interactions, where collective phenomena enable information-processing applications such as pattern recognition.
Next, I will focus on discrete-time open quantum dynamics, realisable on quantum platforms via repeated interactions between a system and auxiliary qubits. Measuring these auxiliary qubits after each interaction generates time-resolved measurement records, known as quantum trajectories. By employing thermodynamic concepts on such trajectories, I will discuss methods to bias the dynamics towards desired behaviour and to identify dynamical phases and phase transitions in trajectory space.
Throughout the seminar, I will mention potential applications of these ideas in quantum simulation, sensing, and computation. I will conclude by outlining ongoing and future research directions, emphasising how these efforts connect within the research environment in Rome.
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