Add to ORKGCold gases of atoms and molecules provide a system for the exploration of a diverse set of physical phenomena. For example, cold gasses of magnetically and electrically polar atoms and molecules are ideal systems for quantum simulation and quantum computation experiments, and cold gasses of large polar molecules allow for novel spectroscopic techniques. Buffer-gas cooling is a robust and widely applicable method for cooling atoms and molecules to temperatures of approximately 1 Kelvin. In this thesis, I present novel applications of buffer-gas cooling to obtaining gases of trapped, ultracold atoms and diatomic molecules, as well as the study of the cooling of large organic molecules. In the first experiment of this thesis, a buffer-gas beam...
We present a rigorous theoretical study of low-temperature collisions of polyatomic molecular radica...
Achieving precise control over an array of ultracold molecules would provide a unique tool-set for c...
Over the past three years we have developed the technique of buffer-gas cooling and loading of atoms...
Cryogenic buffer gas cooled beams and cells can be used to study many species, from atoms and polar ...
Laser cooling and trapping in a magneto-optical trap (MOT) have been essential to the success of col...
Ultracold molecules promise a revolutionary test bed for quantum science with applications ranging f...
Recently, laser cooling methods have been extended from atoms to molecules. The complex rotational a...
From studies of fundamental physics to quantum technologies the production of ultracold molecules wi...
The ability to cool atoms below the Doppler limit -- the minimum temperature reachable by Doppler co...
This thesis reports on the production and characterisation of the first slow and cold beam of YbF m...
Beams of atoms and molecules are stalwart tools for spectroscopy and studies of collisional process...
Many areas of physics—precision measurements, quantum information, and physical chemistry, to name a...
We model sympathetic cooling of ground-state CaF molecules by ultracold Li and Rb atoms. The molecul...
The development of techniques to cool/slow and trap atoms and molecules brought about a revolution i...
The ability to cool and trap atoms has revolutionized atomic and ultra-cold physics. Molecular physi...
We present a rigorous theoretical study of low-temperature collisions of polyatomic molecular radica...
Achieving precise control over an array of ultracold molecules would provide a unique tool-set for c...
Over the past three years we have developed the technique of buffer-gas cooling and loading of atoms...
Cryogenic buffer gas cooled beams and cells can be used to study many species, from atoms and polar ...
Laser cooling and trapping in a magneto-optical trap (MOT) have been essential to the success of col...
Ultracold molecules promise a revolutionary test bed for quantum science with applications ranging f...
Recently, laser cooling methods have been extended from atoms to molecules. The complex rotational a...
From studies of fundamental physics to quantum technologies the production of ultracold molecules wi...
The ability to cool atoms below the Doppler limit -- the minimum temperature reachable by Doppler co...
This thesis reports on the production and characterisation of the first slow and cold beam of YbF m...
Beams of atoms and molecules are stalwart tools for spectroscopy and studies of collisional process...
Many areas of physics—precision measurements, quantum information, and physical chemistry, to name a...
We model sympathetic cooling of ground-state CaF molecules by ultracold Li and Rb atoms. The molecul...
The development of techniques to cool/slow and trap atoms and molecules brought about a revolution i...
The ability to cool and trap atoms has revolutionized atomic and ultra-cold physics. Molecular physi...
We present a rigorous theoretical study of low-temperature collisions of polyatomic molecular radica...
Achieving precise control over an array of ultracold molecules would provide a unique tool-set for c...
Over the past three years we have developed the technique of buffer-gas cooling and loading of atoms...