## The influence of collisions on radiative saturation and Lamb dip formation in CO molecular lasers |

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### Contents

Apparatus for Probe of Inversion Using Standing | 9 |

Rate Equation Treatment of Collisions | 15 |

b Elastic Collision Model | 21 |

5 other sections not shown

### Common terms and phrases

amplifier amplitude AnQ(v approximately Boltzmann distribution Brewster plates cavity collision model collision processes collisions which change cross-relaxation rate density matrix equations diffusion dipole Doppler broadened line Doppler component Doppler shifted Doppler width dv Nj(v elastic collision elastic velocity-changing emission cross-section factor gaussian inhomogeneous interaction Inversion Probe iV(t Lamb dip Lamb dip formation laser field laser oscillator level pair line center linear polarization Lorentzian function Lorentzian hole mirror MOLECULAR LASERS molecule monochromatic non-degenerate two level obtained from Eq optical optical cavity perturbation Phys population densities population inversion pressure dependence probe beam probe field quantity radiative saturation rate equations rotation-vibration transitions rotational coupling rotational scattering saturated inversion saturating field saturation behaviour saturation parameter scattering rate spectral line standing wave standing wave field stimulated emission tion torr traveling wave field velocity distribution vibrational decay rate vibrational levels W.R. Bennett width 2y