This study numerically investigates the enhancement of photonic microwave generation using an optically injected semiconductor laser operating at period-one (P1) nonlinear dynamics through ultrashort optical feedback. For the purpose of practical applications where system miniaturization is generally preferred, a feedback delay time that is one to two orders of magnitude shorter than the relaxation resonance period of a typical laser is emphasized. Various dynamical states that are more complicated than the P1 dynamics can be excited under a number of ultrashort optical feedback conditions. Within the range of the P1 dynamics, on one hand, the frequency of the P1 microwave oscillation can be greatly enhanced by up to more than three folds. ...
金沢大学大学院自然科学研究科金沢大学工学部We present an improved theoretical model to analyze dynamics and operation of s...
The direct-modulation of semiconductor lasers is the simplest and most compact approach to pass data...
[[abstract]]We numerically investigate high-frequency microwave signal generation utilizing a double...
[[abstract]]We have demonstrated and characterized the generation of ultra broadband microwave frequ...
Photonic microwave generation based on period-one dynamics of an optically injected VCSEL has been s...
The main objective of this research is to investigate the rich nonlinear dynamics of a semiconductor...
This article belongs to the Special Issue Microwave Photonics Applications.In this paper, microwave ...
Photonic microwave or millimeter wave (MMW) sources that produce highly stable and broadly tunable m...
Abstract—The nonlinear dynamical period-one oscillation of an optically injected semiconductor laser...
In this paper, major photonic microwave generation and modulation methods are described. Their advan...
[[abstract]]Microwave frequency combs are generated by optically injecting a semiconductor laser (sl...
[[abstract]]Characteristics of the frequency-locked states generated by nonlinear dynamical behavior...
In this paper, microwave photonic signal generation based on the period-one dynamic of optically inj...
Abstract—Nonlinear dynamics of an optically injected semiconductor laser for microwave frequency mix...
[[abstract]]The nonlinear dynamics of a semiconductor laser (slave laser) injected by optical pulses...
金沢大学大学院自然科学研究科金沢大学工学部We present an improved theoretical model to analyze dynamics and operation of s...
The direct-modulation of semiconductor lasers is the simplest and most compact approach to pass data...
[[abstract]]We numerically investigate high-frequency microwave signal generation utilizing a double...
[[abstract]]We have demonstrated and characterized the generation of ultra broadband microwave frequ...
Photonic microwave generation based on period-one dynamics of an optically injected VCSEL has been s...
The main objective of this research is to investigate the rich nonlinear dynamics of a semiconductor...
This article belongs to the Special Issue Microwave Photonics Applications.In this paper, microwave ...
Photonic microwave or millimeter wave (MMW) sources that produce highly stable and broadly tunable m...
Abstract—The nonlinear dynamical period-one oscillation of an optically injected semiconductor laser...
In this paper, major photonic microwave generation and modulation methods are described. Their advan...
[[abstract]]Microwave frequency combs are generated by optically injecting a semiconductor laser (sl...
[[abstract]]Characteristics of the frequency-locked states generated by nonlinear dynamical behavior...
In this paper, microwave photonic signal generation based on the period-one dynamic of optically inj...
Abstract—Nonlinear dynamics of an optically injected semiconductor laser for microwave frequency mix...
[[abstract]]The nonlinear dynamics of a semiconductor laser (slave laser) injected by optical pulses...
金沢大学大学院自然科学研究科金沢大学工学部We present an improved theoretical model to analyze dynamics and operation of s...
The direct-modulation of semiconductor lasers is the simplest and most compact approach to pass data...
[[abstract]]We numerically investigate high-frequency microwave signal generation utilizing a double...