SubsidieMeestersUltracold polyatomic molecules for controlled chemistry and precision physics
This project aims to explore ultracold polyatomic molecules for advanced quantum simulations and precision measurements, enhancing our understanding of chemistry and physics through novel cooling techniques.
Projectdetails
Introduction
Ultracold atoms have been successfully used in quantum simulations and precision measurements. Molecules possess a richer internal structure promising new applications. However, only relatively simple molecules have been produced and employed at ultralow temperatures. This project aims to understand and harness the increasing complexity of ultracold polyatomic molecules to probe the fundamentals of chemistry and physics.
Objectives
We will extend the range of ultracold polyatomic molecules and their applications in controlled chemistry and precision spectroscopy. We will propose and theoretically investigate two paths:
- Association of ultracold deeply-bound diatomic molecules into ultracold weakly-bound polyatomic molecules.
- Direct cooling of deeply-bound polyatomic molecules carefully selected and manipulated with electromagnetic fields.
The first approach will build on established atomic techniques, which we will extend to molecular systems. The second one will employ strong fields, short pulses, and structural modifications to engineer closed transitions suitable for laser cooling.
Methodology
We will combine and develop novel electronic structure and quantum scattering methods enhanced by machine learning and high-performance computing. Next, we will study new applications exploiting features emerging from:
- Single-molecule and coherent control
- Conical intersections
- Non-trivial electronic states and geometries absent in simpler systems
Applications
Applications will range from quantum-controlled chemical reactions and molecular dynamics to precision measurements of fundamental constants and their spatio-temporal variation.
Conclusion
The realization of the project will push cold chemistry into the quantum realm and bring unprecedented complexity to ultracold physics, thus providing new insights into the physical basis of chemistry and the fundamental laws of nature. A unique experience of the PI in both quantum chemistry and ultracold atomic physics will be instrumental in achieving these goals.
Financiële details & Tijdlijn
Financiële details
| Subsidiebedrag | € 1.499.125 |
| Totale projectbegroting | € 1.499.125 |
Tijdlijn
| Startdatum | 1-10-2022 |
| Einddatum | 30-9-2027 |
| Subsidiejaar | 2022 |
Partners & Locaties
Projectpartners
- UNIWERSYTET WARSZAWSKIpenvoerder
Land(en)
Vergelijkbare projecten binnen European Research Council
| Project | Regeling | Bedrag | Jaar | Actie |
|---|---|---|---|---|
Trimers,Tetramers and molecular BECThe project aims to advance control of ultracold quantum systems by studying weakly bound polyatomic molecules, enhancing our understanding of few-body physics and enabling new experimental techniques. | ERC Consolid... | € 1.822.724 | 2022 | Details |
LIght for controlling Reactive Interactions in COld moleculesThe LIRICO project aims to control chemical reactions in ultracold molecules using high-finesse optical cavities, enabling advanced quantum applications and novel molecular quantum technologies. | ERC Starting... | € 1.496.700 | 2024 | Details |
Quantum Control of Ultracold Molecules By Electric FieldsThis project aims to achieve unprecedented low-energy molecular collision studies using advanced techniques to explore quantum features and interactions, bridging ultracold quantum physics and physical chemistry. | ERC Advanced... | € 3.352.573 | 2025 | Details |
Helium dimer Ultracold Molecules - a platform for fundamental physics and ultracold chemistryHeliUM aims to achieve quantum degeneracy by directly laser cooling the He2 molecule, enabling unprecedented precision in quantum measurements and studies of molecular collisions. | ERC Starting... | € 2.215.408 | 2024 | Details |
Quantum Optical Physics with Neutral-Atom Waveguide-QEDThis project aims to develop a versatile apparatus for cold atoms near photonic-crystal waveguides to enable deterministic photon interactions and advance quantum technologies. | ERC Advanced... | € 2.498.750 | 2023 | Details |
Trimers,Tetramers and molecular BEC
The project aims to advance control of ultracold quantum systems by studying weakly bound polyatomic molecules, enhancing our understanding of few-body physics and enabling new experimental techniques.
LIght for controlling Reactive Interactions in COld molecules
The LIRICO project aims to control chemical reactions in ultracold molecules using high-finesse optical cavities, enabling advanced quantum applications and novel molecular quantum technologies.
Quantum Control of Ultracold Molecules By Electric Fields
This project aims to achieve unprecedented low-energy molecular collision studies using advanced techniques to explore quantum features and interactions, bridging ultracold quantum physics and physical chemistry.
Helium dimer Ultracold Molecules - a platform for fundamental physics and ultracold chemistry
HeliUM aims to achieve quantum degeneracy by directly laser cooling the He2 molecule, enabling unprecedented precision in quantum measurements and studies of molecular collisions.
Quantum Optical Physics with Neutral-Atom Waveguide-QED
This project aims to develop a versatile apparatus for cold atoms near photonic-crystal waveguides to enable deterministic photon interactions and advance quantum technologies.