光混频产生毫米波的理论思考

J. Fontana, R. Pantell
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引用次数: 11

摘要

利用光脉泽信号产生辐射是缩小微波和红外线之间差距的一种可能方法。考虑了不同类型非线性介质的转换效率。结果表明,无损非线性介质,如电介质,无论采用何种方式,其转换效率都非常低。另一方面,非线性电阻介质的效率高达25%,与频率转换比无关。因此,为了通过混合光脉泽输出产生毫微米范围内的波长,所使用的材料应该涉及非线性耗散过程。
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Theoretical Considerations on Millimeter Wave Generation by Optical Frequency Mixing
The generation of radiation by miing optical maser signals is one possible method for closing the gap between microwaves and infrared. The conversion efficiency attainable with different types of nonlinear media is considered. It is shown that lossless nonlinear media, such as dielectrics, have very low conversion efficiency properties, regardless of the way they are used. Nonlinear resistive media, on the other hand, have efficiencies up to 25 per cent, independently of the frequency conversion ratio. Consequently, in order to generate wavelengths in the nillimeter range by mixing optical maser outputs, the materials used should involve nonlinear dissipative processes.
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