Optical cycling of AlF molecules

Abstract: Aluminium monofluoride (AlF) is a promising candidate for laser cooling and trapping at high densities. We show efficient production of AlF in a bright, pulsed cryogenic buffer gas beam, and demonstrate rapid optical cycling on the Q rotational lines of the A 1 Π ↔ X 1 Σ + transition. We measure the brightness of the molecular beam to be > 10 12 molecules per steradian per pulse in a single rotational state and present a new method to determine its velocity distribution in a single shot. The photon scattering … Show more

“…Recently, we identified the aluminum monofluoride (AlF) molecule as a promising candidate for laser cooling. Its virtues include a large photon scattering rate and favorable Franck-Condon factors [57][58][59]. Moreover, we demonstrated that AlF molecules can be efficiently produced in a pulsed buffer-gas source, with a yield of > ∼ 10 12 molecules per steradian per pulse [58].…”

“…Its virtues include a large photon scattering rate and favorable Franck-Condon factors [57][58][59]. Moreover, we demonstrated that AlF molecules can be efficiently produced in a pulsed buffer-gas source, with a yield of > ∼ 10 12 molecules per steradian per pulse [58]. A high yield of cryogenically thermalized molecules is a key prerequisite for reaching quantum degeneracy in a cooling step that follows upon laser cooling, namely forced evaporation.…”

Dynamics of translational and rotational thermalization of AlF molecules via collisions with cryogenic helium

“…Recently, we identified the aluminum monofluoride (AlF) molecule as a promising candidate for laser cooling. Its virtues include a large photon scattering rate and favorable Franck-Condon factors [57][58][59]. Moreover, we demonstrated that AlF molecules can be efficiently produced in a pulsed buffer-gas source, with a yield of > ∼ 10 12 molecules per steradian per pulse [58].…”

“…Its virtues include a large photon scattering rate and favorable Franck-Condon factors [57][58][59]. Moreover, we demonstrated that AlF molecules can be efficiently produced in a pulsed buffer-gas source, with a yield of > ∼ 10 12 molecules per steradian per pulse [58]. A high yield of cryogenically thermalized molecules is a key prerequisite for reaching quantum degeneracy in a cooling step that follows upon laser cooling, namely forced evaporation.…”

Dynamics of translational and rotational thermalization of AlF molecules via collisions with cryogenic helium

“…We also expect them to be relevant for species with similar structure, like isotopologues of CaF, SrF or radioactive RaF [30] containing metal atoms with nonzero nuclear spin. Other examples where optical cycling and laser cooling of diatomic molecules with two nuclear spins have recently been considered include AlF [31], TlF [32] and YbOH [33], but detailed studies of laser cooling forces have so far been lacking. * t.langen@physik.uni-stuttgart.de Relevant energy levels for the laser cooling of 137 BaF including their relative energy shifts.…”

A laser cooling scheme for precision measurements using barium monofluoride (137Ba19F) molecules