Accordo di programma per la realizzazione di attività scientifica da parte del Centro BEC per il periodo 01 luglio 2021 – 30 giugno 2024 Progetto “Ricerca sui gas quantistici al Centro BEC”
AdP PAT INO 2021-2024
Calls: Accordo di programma
Start date: 2021-07-01 End date: 2024-06-30
Total Budget: EUR 750.000,00 INO share of the total budget: EUR 750.000,00
Scientific manager: and for INO is: Carusotto Iacopo
Organization/Institution/Company main assignee: INO
other Organization/Institution/Company involved:
other INO’s people involved: Lamporesi GiacomoBiella AlbertoDalfovo FrancoFerrari GabrieleMenotti ChiaraRastelli GianlucaRecati AlessioZenesini Alessandro
All these experimental activities will be developed in strong synergy with the theoretical component of the BEC Center. The theoretical reseach line will include also broader topics regarding gases and quantum fluids, superfluidity, and more generally coherence phenomena, supersolidity, analogies between atomic systems and other systems in condensed matter, quantum optics, quantum optomechanical systems, quantum dots, quantum information and computing, and systems showing macroscopic effects of quantum mechanics, offering the possibility to develop novel systems based on thre quantum properties of light and matter.
These research lines are in the framework of the activities of Q@TN.
The technological applications of such a research will be highlighted within the technological transfer of Q@TN.
The Scientific Results:
1) Observation of Massless and Massive Collective Excitations with Faraday Patterns in a Two-Component Superfluid2) Observation of vortices and vortex stripes in
a dipolar condensate3) Bogoliubov theory of the laser linewidth and application to polariton condensates4) Coherently Coupled Mixtures of Ultracold Atomic Gases5) Detection of Berezinskii-Kosterlitz-Thouless transition via generative adversarial networks6) Analogue quantum simulation of the Hawking effect in a polariton superfluid7) Moment of inertia and dynamical rotational response of a supersolid dipolar gas8) Dynamical theory for one-dimensional fermions with strong two-body losses: Universal non-Hermitian Zeno physics and spin-charge separation9) Quantum Density Matrix Theory for a Laser Without Adiabatic Elimination of the Population Inversion: Transition to Lasing in the Class-B Limit