Rydberg soft matter
Lead Research Organisation:
University of Nottingham
Department Name: Sch of Physics & Astronomy
Abstract
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Organisations
Publications
Macieszczak K
(2018)
Unified Thermodynamic Uncertainty Relations in Linear Response.
in Physical review letters
Carollo F
(2019)
Unraveling the Large Deviation Statistics of Markovian Open Quantum Systems.
in Physical review letters
Carollo F
(2020)
Nonequilibrium Quantum Many-Body Rydberg Atom Engine.
in Physical review letters
Lan Z
(2015)
Emergent Devil's Staircase without Particle-Hole Symmetry in Rydberg Quantum Gases with Competing Attractive and Repulsive Interactions.
in Physical review letters
Gambetta FM
(2020)
Long-Range Multibody Interactions and Three-Body Antiblockade in a Trapped Rydberg Ion Chain.
in Physical review letters
PĂ©rez-Espigares C
(2017)
Epidemic Dynamics in Open Quantum Spin Systems
in Physical Review Letters
Carollo F
(2019)
Critical Behavior of the Quantum Contact Process in One Dimension.
in Physical review letters
Gambetta F
(2020)
Engineering NonBinary Rydberg Interactions via Phonons in an Optical Lattice
in Physical Review Letters
Marcuzzi M
(2016)
Absorbing State Phase Transition with Competing Quantum and Classical Fluctuations.
in Physical review letters
Jessop M
(2020)
Phase synchronization in coupled bistable oscillators
in Physical Review Research
Description | We explored the analogy between soft matter systems, such as colloids, and Rydberg gases, and establish a basis for a quantum emulation of (augmented) soft matter systems using atomic gases, with the aim to break new ground in the understanding of non-equilibrium behaviour of many-body quantum systems. |
Exploitation Route | Academic impact, through a major advance in our understanding of systems far-from equilibrium and ability to control the properties of complex materials. Technological impact, from the experimental part of the programme in Durham. Training, as we produced highly trained personnel at all levels. And Outreach. |
Sectors | Other |