Injection locking

About: Injection locking is a research topic. Over the lifetime, 4567 publications have been published within this topic receiving 60942 citations.

Photonic Generation of Microwave Signals Using a Single-Mode VCSEL Subject to Dual-Beam Orthogonal Optical Injection

Abstract: We experimentally and theoretically investigate the photonic generation of microwave signals using a long-wavelength single-transverse-mode vertical-cavity surface-emitting laser (VCSEL) subject to two-frequency orthogonal optical injection. We study if a significant reduction of the linewidth is achieved in the double injection locking regime. In this regime, the VCSEL is subject to optical injection by two master lasers in such a way that stable locking is also observed if only light from one of the master lasers is injected. Our model includes the effect of the injected light reflected at the VCSEL's mirror generalizing previous modeling of reflection-mode optical injection-locked VCSELs. Our model also describes the high coherence associated to stable injection locking states and takes into account phase fluctuations in both master lasers. We observe no significant reduction of the linewidth in the double injection locking regime because the linewidth is mainly determined by the phase fluctuations of the two master lasers.

Polarization Switching Bistability and Dynamics in Vertical-Cavity Surface-Emitting Laser under Orthogonal Optical Injection

Abstract: Bistability as well as dynamics associated to polarization switching in a vertical-cavity surface-emitting laser (VCSEL) submitted to orthogonal optical injection from an external master laser are investigated. Intensity-polarization switching bistability is studied by increasing and decreasing the intensity of the injected beam and for a fixed frequency detuning, i.e. the frequency offset between master and the free running VCSEL. Depending on the frequency detuning, bistable switching is experimentally found to occur with or without injection locking of the fundamental mode to the master laser frequency. For large positive detuning, injection locking of the first-order transverse mode with a strong depression of the fundamental mode has been observed. The case of frequency – polarization switching bistability, i.e. when the frequency detuning is first decreased and then increased for a fixed injected power, has also been theoretically analyzed. Qualitative comparison with previous experimental work is presented for the dependence of the width of the bistable switching region on the injection strength level. Finally we show an experimental result of complicated dynamics including period doubling route to chaos that accompany polarization switching and which motivates future theoretical investigations.

Optical injection locking and switching of transistor oscillators

Abstract: In this letter we describe a novel approach of achieving injection locking of solid‐state oscillators. This is done by taking an external driving signal to modulate a GaAlAs cw injection laser and then guiding the modulated light output in a fiber waveguide to illuminate the active solid‐state component in the oscillator circuit. Experiments were carried out with silicon transistor oscillators with frequency ranging from below 1 kHz up to 1.8 GHz. Optical injection locking was observed not only at fundamental frequencies, but also at various subharmonics with less tolerance in frequency deviation. It is also possible to achieve switching and locking simultaneously in these oscillators.

Precision radar timebase using harmonically related offset oscillators

Abstract: Two crystal oscillators are configured as a "plug-and-play" precision transmit-receive clock that requires no calibration during manufacture. A first crystal oscillator generates a transmit clock and a second crystal oscillator operates at a small offset from a harmonic of the first oscillator. A turnstile circuit selects pulses from the second oscillator to trigger a receive clock. Both the transmit and receive clocks operate at the same frequency. One edge of the receive clock is smoothly slipped, or swept, in phase across a limited range such as 0 to 36 degrees relative to the transmit clock with the slip rate set by the harmonic frequency offset. In one embodiment, a quadrature frequency-locked-loop is used to accurately control the slip rate while preventing false frequency locks. This timebase can be used to clock equivalent time radar, laser, and TDR ranging systems with picosecond accuracy. Applications include automotive backup and collision warning radars, precision radar rangefinders for fluid level sensing and robotics, and universal object/obstacle detection and ranging.

20-GHz Quadrature Injection-Locked LC Dividers With Enhanced Locking Range

Abstract: Quadrature injection-lockedLC dividers with either a Miller topology or an injection-lockedLC VCO topology are coupled with transconductors to enhance their locking range. The effect of the transconductance coupling is analyzed theoretically and through circuit simulation. Both topologies were fabricated by 90-nm CMOS technology with a target input center frequency of 20 GHz and output frequency of 10 GHz. The measured locking range for the Miller topology with transconductance coupling is 25.3%, compared to 20.9% without coupling. The measured locking range for the injection-locked LC VCO topology with transconductance coupling is 18.1%, compared to 12.9% without coupling. Moreover, power consumption for both dividers is 6.4 mW with a 1.2-V supply.