Deep laser cooling and efficient magnetic compression of molecules

We introduce a scheme for deep laser cooling of molecules based on optical pumping into robust dark states at zero velocity. Using multi-level optical Bloch equations to simulate this scheme, we show that it may be feasible to reach the recoil limit or below. We demonstrate and characterise the method experimentally, reaching a temperature of 5.8(5) {\mu}K. We measure the complete velocity distribution directly, by rotating the phase-space distribution and then imaging the cloud. Using the same phase-space rotation method, we rapidly compress the cloud. By applying the cooling method a second time, we compress both the position and velocity distributions.