Use of picosecond optical pulses and FET's integrated with printed circuit antennas to generate millimeter wave radiation

Ni D.C.; Plant D.V.

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Use of picosecond optical pulses and FET's integrated with printed circuit antennas to generate millimeter wave radiation

机译：使用皮秒光脉冲和FET与印刷电路天线集成在一起以产生毫米波辐射

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Millimeter-wave radiation has been generated from field effect transistors (FETs) and high electron mobility transistors (HEMTs), integrated with printed circuit antennas and illuminated with picosecond optical pulses. Modulation of the millimeter waves was achieved by applying a swept RF signal to the transistor gate. Using this technique, tunable electrical sidebands were added to the optically generated carrier providing a method of transmitting information. The technique also provides increased resolution for use in spectroscopic applications. Heterodyne detection demonstrated that the system continuously generated tunable radiation, constrained by the high-gain antenna, from 45 to 75 GHz.

机译：毫米波辐射已从场效应晶体管（FET）和高电子迁移率晶体管（HEMT）产生，并与印刷电路天线集成在一起，并被皮秒光脉冲照射。毫米波的调制是通过将扫频RF信号施加到晶体管栅极来实现的。使用这种技术，可调谐的电子边带被添加到光学产生的载波中，从而提供了一种传输信息的方法。该技术还为光谱应用提供了更高的分辨率。外差检测表明，该系统在45至75 GHz范围内连续产生受高增益天线约束的可调辐射。

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《IEEE Photonics Technology Letters》 |1991年第3期|P.273-275|共3页
作者
Ni D.C.; Plant D.V.;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类光电子技术、激光技术;
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专利

1. Generation of millimeter-wave radiation by optical mixing in FETs integrated with printed circuit antennas [J] . Plant D.V., Scott D.C. IEEE Microwave and Guided Wave Letters . 1991,第6期

机译：在集成有印刷电路天线的FET中通过光混合产生毫米波辐射
2. Optically generated 60 GHz millimeter waves using AlGaAs/InGaAs HEMTs integrated with both quasi-optical antenna circuits and MMICs [J] . Plant D.V., Scott D.C. IEEE Photonics Technology Letters . 1992,第1期

机译：使用与准光学天线电路和MMIC集成在一起的AlGaAs / InGaAs HEMT，以光学方式产生60 GHz毫米波
3. Printed circuit antennas with integrated FET detectors for millimeter-wave quasi optics [J] . Chew W., Fetterman H.R. IEEE Transactions on Microwave Theory and Techniques . 1989,第3期

机译：带有集成FET检测器的印刷电路天线，用于毫米波准光学器件
4. Use Of Picosecond Optical Pulses And FETs Integrated With Printed Circuit Antennas To Generate Millimeter Waves [C] . Plant, D.V., Ni, . 1990

机译：皮秒光学脉冲和FET与印刷电路天线集成使用以生成毫米波
5. Application of ultrafast optical techniques to the characterization of millimeter-wave integrated circuits and radiating structures. [D] . Yang, Kyoung. 2001

机译：超快光学技术在毫米波集成电路和辐射结构表征中的应用。
6. Microdrilling of Through-Holes in Flexible Printed Circuits Using Picosecond Ultrashort Pulse Laser [O] . Wanqin Zhao, Lingzhi Wang 2018

机译：使用皮秒超短脉冲激光在柔性印刷电路板上的微孔钻孔
7. InP aperture coupled patch antenna for millimeter-wave/photonic integrated circuits [O] . W. S. T. Rowe, K. Ghorbani 2006

机译：用于毫米波/光子集成电路的INP孔径耦合贴片天线
8. Recent Progress of Quasi-Optical Integrated Microwave and Millimeter-Wave Circuits and Components. [R] . Itoh, T. 1989

机译：准光学集成微波和毫米波电路及元件的最新进展。

Use of picosecond optical pulses and FET's integrated with printed circuit antennas to generate millimeter wave radiation

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