Publications by authors named "Arseny Vasilyev"
The semiconductor laser (SCL) is the principal light source powering the worldwide optical fiber network. The ever-increasing demand for data is causing the network to migrate to phase-coherent modulation formats, which place strict requirements on the temporal coherence of the light source that no longer can be met by current SCLs. This failure can be traced directly to the canonical laser design, in which photons are both generated and stored in the same, optically lossy, III-V material.
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- The research presents a novel method for optoelectronic phase-locking of rapidly chirped optical waves generated by a semiconductor laser, achieving a precise frequency chirp over a short timespan.
- The study utilizes an acoustooptic frequency shifter to maintain synchronization between two linearly chirped optical waves, enabling improved control over their phase using a digital electronic oscillator.
- Results showcase applications in coherent power combining of high-power fiber amplifiers and electronic beam steering, enhancing performance and efficiency in optical systems.
We demonstrate the optical manipulation of nanoliter aqueous droplets containing surfactant or lipid molecules and immersed in an organic liquid using near-infrared light. The resulting emulsion droplets are manipulated using both the thermocapillary effect and convective fluid motion. Droplet-pair interactions induced in the emulsion upon optical initiation and control provide direct observations of the coalescence steps in intricate detail.
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- The study introduces a new method to enhance the effective bandwidth of frequency-modulated continuous-wave (FMCW) ranging systems by combining the frequency sweeps from different laser sources.
- This approach leads to better range resolution, which improves as the frequency range increases.
- Experimentally, the technique shows a threefold improvement in range resolution compared to traditional FMCW methods by utilizing three different swept-frequency waveforms.
The bandwidth and performance of optical phase-lock loops (OPLLs) using single-section semiconductor lasers (SCLs) are severely limited by the nonuniform frequency modulation response of the lasers. It is demonstrated that this restriction is eliminated by the sideband locking of a single-section distributed-feedback SCL to a master laser in a heterodyne OPLL, thus enabling a delay-limited loop bandwidth. The lineshape of the phase-locked SCL output is characterized using a delayed self-heterodyne measurement.
View Article and Find Full Text PDFWe demonstrate the generation of wideband frequency sweeps using a semiconductor laser in an optoelectronic feedback loop. The rate and shape of the optical frequency sweep is locked to and determined by the frequency of a reference electronic signal, leading to an agile, high coherence swept-frequency source for laser ranging and 3-D imaging applications. Using a reference signal of constant frequency, a transform-limited linear sweep of 100 GHz in 1 ms is achieved, and real-time ranging with a spatial resolution of 1.
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