Abdelhamid Hmima scite author profile

In this paper, we propose a new approach for the generation of ultralow jitter optical pulses using optoelectronic microwave oscillators. The short pulses are obtained through time-lens soliton-assisted compression of sinusoidally modulated prepulses, which are self-started from a conventional single-loop optoelectronic oscillator. The inherent ultralow phase noise of optoelectronic oscillators is converted into ultralow timing jitter for the generated pulses. We provide a time-domain model for the slowly varying amplitudes of the microwave and optical oscillations, and our analytical study is confirmed by numerical simulations and experimental measurements. We demonstrate the generation of 4.1 ps pulses along with a microwave whose phase noise is 140 dBc/Hz at 10 kHz from the 10 GHz carrier, with 2.7 fs jitter in the 1-10 kHz frequency band.

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Estimation of the uncertainty for a phase noise optoelectronic metrology system

Salzenstein¹,

Pavlyuchenko²,

Hmima³

et al. 2012

Phys. Scr.

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A configuration of phase noise measurement system operating in X-band (8.2-12.4 GHz) using a photonic delay line as a frequency discriminator is presented in this paper. This system doesn't need any excellent frequency reference and works for any frequency in this band. Oscillator frequency fluctuation is converted to phase frequency fluctuation through the delay line. The measured phase noise includes the Device Under Test (DUT) noise and the instrument background. Then the use of a cross correlation decreases the cross spectrum terms of uncommon phase noise as √(1/m), where m is the average number. Using cross correlation on 500 averages, noise floor of the instrument £(f) becomes respectively-150 and-170 dBc/Hz at 10 1 and 10 4 Hz from the 10 GHz carrier (-90 and-170 dBc/Hz including 2 km delay lines). We then focus on determining uncertainty. There are two categories of uncertainties terms : "type A", statistic contribution such as repeatability and experimental standard deviation; "type B" due to various components and temperature control. Elementary term of uncertainty for repeatability is found to be equal to 0.68 dB. Other elementary terms still have lower contributions. Its leads to a global uncertainty of 1.58 dB at 2σ.

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Theoretical investigation of optical properties of optimal architectures of magnetoplasmonic nanoparticles in human tissue for potential applications in photothermal therapy

et al. 2021

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Dendritic structures by glass electrolysis: Studies and SERS capability

Babich

Raskhodchikov

Redkov

et al. 2021

Current Applied Physics

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2D characterization at submicron scale of crack propagation of 17-4PH parts produced by Atomic Diffusion Additive Manufacturing (ADAM) process

Gong

Djouda

Hmima

et al. 2021

Procedia Structural Integrity

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