Add to ORKGMany areas of physics—precision measurements, quantum information, and physical chemistry, to name a few—are starting to benefit from the enormous advantages offered by cold and ultracold polar molecules. Molecules have more states, more interactions, and more chemical properties compared to atoms, which make them exciting to study but difficult to tame. In particular, the powerful techniques of atomic laser cooling cannot be naïvely applied to molecules due to their complicated structure. Developments over the past few years have made directly laser cooled and trapped molecules a reality, and now much effort is focused on making these samples larger, denser, and colder—an important step to realizing many of their exciting applications. A c...
Laser slowing of CaF molecules down to the capture velocity of a magneto-optical trap for molecules ...
Chemical reactions can be surprisingly efficient at ultracold temperatures ( < 1mK) due to the wave ...
Chemical reactions can be surprisingly efficient at ultracold temperatures ( < 1mK) due to the wave ...
Many areas of physics—precision measurements, quantum information, and physical chemistry, to name a...
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...
A Sisyphean task: Laser cooling of molecules is difficult, mainly due to their rich vibrational stru...
Ultracold molecules are a promising platform for diverse scientific goals, ranging from quantum info...
Laser cooling and trapping in a magneto-optical trap (MOT) have been essential to the success of col...
Cryogenic buffer gas cooled beams and cells can be used to study many species, from atoms and polar ...
The ability to cool atoms below the Doppler limit -- the minimum temperature reachable by Doppler co...
Ultracold molecules are a promising platform for diverse scientific goals, ranging from quantum info...
Ultracold molecules can be used for a diverse set of exciting applications including controlled quan...
Chemical reactions can be surprisingly efficient at ultracold temperatures ( < 1mK) due to the wave ...
Laser slowing of CaF molecules down to the capture velocity of a magneto-optical trap for molecules ...
Laser slowing of CaF molecules down to the capture velocity of a magneto-optical trap for molecules ...
Chemical reactions can be surprisingly efficient at ultracold temperatures ( < 1mK) due to the wave ...
Chemical reactions can be surprisingly efficient at ultracold temperatures ( < 1mK) due to the wave ...
Many areas of physics—precision measurements, quantum information, and physical chemistry, to name a...
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...
A Sisyphean task: Laser cooling of molecules is difficult, mainly due to their rich vibrational stru...
Ultracold molecules are a promising platform for diverse scientific goals, ranging from quantum info...
Laser cooling and trapping in a magneto-optical trap (MOT) have been essential to the success of col...
Cryogenic buffer gas cooled beams and cells can be used to study many species, from atoms and polar ...
The ability to cool atoms below the Doppler limit -- the minimum temperature reachable by Doppler co...
Ultracold molecules are a promising platform for diverse scientific goals, ranging from quantum info...
Ultracold molecules can be used for a diverse set of exciting applications including controlled quan...
Chemical reactions can be surprisingly efficient at ultracold temperatures ( < 1mK) due to the wave ...
Laser slowing of CaF molecules down to the capture velocity of a magneto-optical trap for molecules ...
Laser slowing of CaF molecules down to the capture velocity of a magneto-optical trap for molecules ...
Chemical reactions can be surprisingly efficient at ultracold temperatures ( < 1mK) due to the wave ...
Chemical reactions can be surprisingly efficient at ultracold temperatures ( < 1mK) due to the wave ...