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A Hybrid Quantum System of Ultracold Polar Molecules and Rydberg Atoms [dataset] Open Access
Hybrid quantum systems aim to leverage the strengths of different platforms to advance quantum science. This thesis presents the development of a hybrid system of ultracold molecules and Rydberg atoms. We assemble individually trapped 87Rb133Cs molecules and interface them with 87Rb Rydberg atoms. This platform is a foundation for applications that seek to exploit the rich internal structure of molecules and the strong interactions of Rydberg atoms. We introduce a new method for assembling weakly bound molecules in which optical tweezers are used to associate pairs of atoms. We compare this method to the well established technique of magnetoassociation and find that their efficiencies are comparable. We transfer arrays of up to eight weakly bound molecules to their rovibrational and hyperfine ground state. The overall efficiency of the formation and transfer process is 48(2)%. We develop a toolbox of techniques for the control and readout of these molecules. We demonstrate global microwave control of multiple rotational states and use auxiliary tweezers to implement site-resolved addressing and state control. We show how the internal state of molecules can be mapped onto the position of atoms and use this capability to readout multiple rotational states in a single experimental run. Further, using a scheme for the mid-sequence detection of molecule-formation errors, we perform rearrangement of assembled molecules to prepare small defect-free arrays. We study long range interactions between Rb atoms and RbCs molecules. To engineer these interactions, we prepare the atoms in highly excited Rydberg states and use species-specific tweezers to precisely control the separation between particles. We demonstrate blockade of Rydberg excitation due to these interactions for sub-micrometre atom-molecule separations. The development of this hybrid platform opens up prospects for transferring quantum information between individually trapped molecules using Rydberg atoms.
Descriptions
- Resource type
- Dataset
- Contributors
- Creator:
Ruttley, Daniel Kenneth
1
Contact person: Ruttley, Daniel Kenneth 1
1 Durham University
- Funder
-
Durham University
- Research methods
- Other description
-
This dataset contains the data and analysis presented in the author's PhD thesis "A Hybrid Quantum System of Ultracold Polar Molecules and Rydberg Atoms".
- Keyword
- Optical tweezers
Ultracold molecules
Rydberg states
Quantum computing
Quantum simulation
Hybrid systems
Quantum systems
Quantum Light and Matter
- Subject
-
Ultracold molecules
Rydberg states
Quantum computing
Quantum systems
Optical tweezers
Hybrid systems
- Location
- Language
- English
- Cited in
- https://etheses.dur.ac.uk/15697/
- Identifier
- ark:/32150/r25t34sj617
doi:10.15128/r25t34sj617
- Rights
- Creative Commons Attribution 4.0 International (CC BY)
- Publisher
-
Durham University
- Date Created
File Details
- Depositor
- D.K. Ruttley
- Date Uploaded
- 16 August 2024, 08:08:13
- Date Modified
- 16 October 2024, 09:10:35
- Audit Status
- Audits have not yet been run on this file.
- Characterization
-
File format: zip (ZIP Format)
Mime type: application/zip
File size: 150312202
Last modified: 2024:10:15 18:38:37+01:00
Filename: A Hybrid Quantum System of Ultracold Polar Molecules and Rydberg Atoms [dataset].zip
Original checksum: 6e506f5b200035b12c17c404d20b2be6
User Activity | Date |
---|---|
User N. Syrotiuk has updated A Hybrid Quantum System of Ultracold Polar Molecules and Rydberg Atoms [dataset] | about 1 month ago |
User N. Syrotiuk has updated A Hybrid Quantum System of Ultracold Polar Molecules and Rydberg Atoms [dataset] | about 1 month ago |
User N. Syrotiuk has updated A Hybrid Quantum System of Ultracold Polar Molecules and Rydberg Atoms [dataset] | about 1 month ago |
User N. Syrotiuk has updated A Hybrid Quantum System of Ultracold Polar Molecules and Rydberg Atoms [dataset] | about 1 month ago |