EPSRC logo
Researcher Details
Name: Professor SL Cornish
Organisation: Durham, University of
Department: Physics
Current EPSRC-Supported Research Topics:
Cold Atomic Species Quantum Optics & Information

Current EPSRC Support
EP/W00299X/1 Developing Molecular Quantum Technologies(P)
EP/T015241/1 Dilute Quantum Fluids Beyond the Mean-Field(P)
Previous EPSRC Support
EP/V047302/1 Interfacing Ultracold Polar Molecules with Rydberg atoms: A Hybrid Platform for Quantum Science(P)
EP/V036386/1 Durham University's EPSRC Core Equipment Award 2020(C)
EP/P01058X/1 QSUM: Quantum Science with Ultracold Molecules(P)
EP/P008275/1 Understanding Collisions of Ultracold Polar Molecules(P)
EP/N007085/1 A Stable Quantum Gas of Fermionic Polar Molecules(P)
EP/L010844/1 Probing Non-Equilibrium Quantum Many-Body Dynamics with Bright Matter-Wave Solitons(P)
EP/K030558/1 Excitations, Rotational Dynamics, and Rotational Sensing in 2-Species Bose-Einstein Condensates(C)
EP/J007021/1 Rydberg crystals and supersolids(C)
EP/I012044/1 MMQA: MicroKelvin Molecules in a Quantum Array(C)
EP/H003363/1 A Quantum Gas of Ultracold Polar Molecules(P)
EP/G056781/1 Relative Phase and Coherence in Bright Matter-Wave Solitons(C)
EP/G026602/1 Quantum-Degenerate Gases for Precision Measurements (QuDeGPM)(P)
EP/F002068/1 Bright matter-wave solitons: formation, dynamics and quantum reflection(P)
EP/E041604/1 Quantum-degenerate dipolar gases of bialkali molecules(C)
EP/D037174/1 Multiparticle entanglement of neutral atoms by Rydberg excitation in an optical lattice(C)
EP/D033314/1 Magnetic transport and mixing of two distinct cold atomic gases: A new route to the study of ultracold mixtures(P)
EP/D502594/1 Coherent Control of the formation of ultracold molecules.(C)
EP/C511484/1 Single-Atom Addressability In A 3D Quasi-Electrostatic Lattice: Neutral Atom Quantum Gates(C)
GR/S78339/01 A Two-Species Mixture of Quantum Degenerate Bose Gases(P)
Key: (P)=Principal Investigator, (C)=Co-Investigator, (R)=Researcher Co-Investigator