ProjectRyDreQS – Quantum Simulation/Computation: From Rydberg Dressing to Ultrafast Interaction
Basic data
Acronym:
RyDreQS
Title:
Quantum Simulation/Computation: From Rydberg Dressing to Ultrafast Interaction
Duration:
01/04/2023 to 31/03/2025
Abstract / short description:
Rydberg atoms offer vast possibilities to design interactions among atoms.
Here we establish an international collaboration to bring together two
extreme ends of Rydberg interaction control: Ultra slow Rydberg dressing and
ultra fast pulsed excitation. The project aims to push the state of the art
in key techniques for Rydberg control by bringing together the complementary
expertise of the two groups. The focus is on the suppression of laser phase
noise, precision holography, cooling and imaging methods and better state
preparation.
Here we establish an international collaboration to bring together two
extreme ends of Rydberg interaction control: Ultra slow Rydberg dressing and
ultra fast pulsed excitation. The project aims to push the state of the art
in key techniques for Rydberg control by bringing together the complementary
expertise of the two groups. The focus is on the suppression of laser phase
noise, precision holography, cooling and imaging methods and better state
preparation.
Keywords:
Rydberg Atoms
Optical Tweezers
Involved staff
Managers
Institute of Physics (PIT)
Department of Physics, Faculty of Science
Department of Physics, Faculty of Science
Other staff
Trautmann, Arno
Institute of Physics (PIT)
Department of Physics, Faculty of Science
Department of Physics, Faculty of Science
Local organizational units
Institute of Physics (PIT)
Department of Physics
Faculty of Science
Faculty of Science
Funders
Bonn, Nordrhein-Westfalen, Germany
Cooperations
Tokyo, Japan