A 106-μ Optical Heterodyne Communication System
Author:
Publisher
The Optical Society
Reference20 articles.
1. Selective Excitation Through Vibrational Energy Transfer and Optical Maser Action inN2-CO2
2. AFC optical heterodyne detector
3. 8.4 - A 3.39-micron infrared optical heterodyne communication system
4. Optical heterodyne communications experiments at 10.6 µ
5. Gain distribution, population densities and rotational temperature for the (00°1)-(10°0) rotation-vibration transitions in a flowing CO<inf>2</inf>-N<inf>2</inf>-He laser
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1. Coherent CO_2 laser communication system with modulable retroreflectors;Applied Optics;1995-04-20
2. The photon detection process;Topics in Applied Physics;1980
3. Acoustooptic Bragg-diffraction with application to ultrahigh data rate laser communication systems 2: Experimental results of the SUBC and the acoustooptical multiplexer/demultiplexer terminals;Applied Optics;1977-11-01
4. Properties of an impurity photoresistor with ultrafrequency bias in the heterodyne mode;Soviet Physics Journal;1977-08
5. Observations de non-linearites en detection heterodyne infrarouge;Optical and Quantum Electronics;1977-05
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