## Calculation of fluorescent efficiency from experimental data by the Huygens principle |

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### Contents

INTRODUCTION | 1 |

Degeneracy of F Waves | 7 |

Statistical Weights of Fluorescent Waves with Quantum | 17 |

### Common terms and phrases

amplitude analogy angle Annual subscription application approximately average values backward Bureau of Standards CALCULATION OF FLUORESCENT characteristic impedance computer program DEGENERACY detector developed electric intensity emerging beam engineering equations errors exponential factors Federal figure FLUORESCENT EFFICIENCY fluorescent radiation formula Fresnel equations FYpf Geometry given Huygens Principle method impedance method incident wave index of refraction individual waves interference effects intrinsic impedance Laboratory losses magnetic intensity materials measurement multiplied National Bureau neglected normal incidence notation NQ-COS0Q number of two-way oblique incidence optical percent physical planar external sources plane waves point sources Poynting vector propagation constant pump quantum numbers ratio reference reflection and transmission reflection coefficient Region round trips SAMPLE semiconductor shown situation slabs Smith Chart Snell's law spherical waves statistical weight substrate surfaces technical theory total intensity transmission coefficients transmission line two-way penetrations voltage wave front wave impedance zero