Litcius/Paper detail

Laser cooling limits in fields with a polarisation gradient of atoms with different recoil energies

Anastasia Kirpichnikova, O. N. Prudnikov, R. Ya. Ilenkov, А. В. Тайченачев, V. I. Yudin

2020Quantum Electronics11 citationsDOI

Abstract

Based on the numerical solution of the quantum kinetic equation for the atomic density matrix, which makes it possible to accurately take into account the recoil effects in the interaction of atoms with field photons, we have studied the limits of laser cooling of atoms using closed optical transitions characterised by different recoil parameters (the ratio of the recoil energy to the natural linewidth). It is shown that for optical transitions with an insufficiently small recoil parameter, the polarisation effects, which lead to the possibility of sub-Doppler laser cooling, lose their efficiency and do not ensure an attainment of the temperature below the Doppler limit. The analysis performed allows one to outline the boundaries of the sub-Doppler theory of laser cooling of atoms.

Topics & Concepts

RecoilDoppler coolingPhysicsLaser coolingAtomic physicsResolved sideband coolingLaser linewidthPolarization (electrochemistry)Raman coolingDoppler effectDoppler broadeningAtom (system on chip)Density matrixKinetic energyLaserQuantumOpticsSpectral lineScatteringQuantum mechanicsInelastic scatteringChemistryX-ray Raman scatteringPhysical chemistryEmbedded systemComputer scienceCold Atom Physics and Bose-Einstein CondensatesAdvanced Fiber Laser TechnologiesQuantum optics and atomic interactions