Add to ORKGThis paper describes a microstrip optically controlled matching technique between microwave active devices with low impedance (less than 10 ohms) and a conventional 50 or 70 ohm communication system in the upper microwave and mm-wave frequencies. The bandwidth is 20 GHz. the maximum insertion loss is less than 1.5 dB and the reflection coefficient is less than-7 dB. The laser controlled terminal impedance's can be changed and adjusted by choosing the carriers lifetime of the semiconductor substrate and by changing the power and wavelength of the optical source
In this thesis, we study optical to microwave conversion and generation of ultrashort electrical pul...
The linearity response of a photoconductive switch on microstrip line is presented at 2GHz. A silico...
Several novel phase-modulated fiber optic links for analog or microwave signal transport up to at l...
The most important optical devices which can be used for controlling microwave circuits will be pres...
Introduction. At present, an optical transmission of a microwave signal is of great scientific and p...
In the last few years, microwaves have become well known for their use in communication. Until twent...
Optical control of microwave switches is an appealing concept for use in reconfigurable antennas as ...
In the analysis of optically controlled microstrip interdigitated gaps, an equivalent circuit model ...
Abstract: In the design of communication systems like radio on fibre, an important step is the chara...
In this report, a thorough analytical procedure is developed for evaluating the frequency-dependent ...
A brief review of optical interactions in semiconductors from the point of view of optical control m...
A brief review of optical interactions in semiconductors from the point of view of optical control m...
The paper presents an analysis of the losses of the optical power and the microwave performance of s...
The paper presents an analysis of the losses of the optical power and the microwave performance of s...
(c) 2018 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for...
In this thesis, we study optical to microwave conversion and generation of ultrashort electrical pul...
The linearity response of a photoconductive switch on microstrip line is presented at 2GHz. A silico...
Several novel phase-modulated fiber optic links for analog or microwave signal transport up to at l...
The most important optical devices which can be used for controlling microwave circuits will be pres...
Introduction. At present, an optical transmission of a microwave signal is of great scientific and p...
In the last few years, microwaves have become well known for their use in communication. Until twent...
Optical control of microwave switches is an appealing concept for use in reconfigurable antennas as ...
In the analysis of optically controlled microstrip interdigitated gaps, an equivalent circuit model ...
Abstract: In the design of communication systems like radio on fibre, an important step is the chara...
In this report, a thorough analytical procedure is developed for evaluating the frequency-dependent ...
A brief review of optical interactions in semiconductors from the point of view of optical control m...
A brief review of optical interactions in semiconductors from the point of view of optical control m...
The paper presents an analysis of the losses of the optical power and the microwave performance of s...
The paper presents an analysis of the losses of the optical power and the microwave performance of s...
(c) 2018 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for...
In this thesis, we study optical to microwave conversion and generation of ultrashort electrical pul...
The linearity response of a photoconductive switch on microstrip line is presented at 2GHz. A silico...
Several novel phase-modulated fiber optic links for analog or microwave signal transport up to at l...