Boris Levit scite author profile

We propose and experimentally demonstrate an all-optical (all-fiber) temporal differentiator based on a simple pi-phase-shifted fiber Bragg grating operated in reflection. The proposed device can calculate the first time derivative of the complex field of an arbitrary narrowband optical waveform with a very high accuracy and efficiency. Specifically, the experimental fiber grating differentiator reported here offers an operation bandwidth of approximately 12 GHz. We demonstrate the high performance of this device by processing gigahertz-bandwidth phase and intensity optical temporal variations.

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Bose–Einstein condensation of photons in an erbium–ytterbium co-doped fiber cavity

Weill

Bekker

Levit

et al. 2019

Nat Commun

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Bose–Einstein condensation (BEC) is a special many-boson phenomenon that was observed in atomic particles at ultra-low temperatures. Later, BEC was also shown for non-atomic bosons, such as photons. Those experiments were usually done in micron-size cavities, where the power (particle number) was varied, and not the temperature, until condensation was reached. Here we demonstrate BEC of photons in a few-meters-long one-dimensional (1D) erbium–ytterbium co-doped fiber cavity at, below and above room temperature, between 100 K and 415 K. The experiments were done at about the 1550 nm wavelength regime having a few to tens of μW intra-cavity light power (107−108 photons). By varying the power and also the temperature, we found linear dependence of the condensation on power for various temperatures and of the critical power (for condensation) on temperature. These findings agree, functionally and quantitatively, with the theoretical BEC prediction without any adjustable parameter.

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Broadband arbitrary waveform generation based on microwave frequency upshifting in optical fibers

Azaña

Berger

Levit

et al. 2006

J. Lightwave Technol.

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Spectro-Temporal Imaging of Optical Pulses With a Single Time Lens

Azaña

Berger

Levit

et al. 2004

IEEE Photon. Technol. Lett.

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Thermalization of one-dimensional photon gas and thermal lasers in erbium-doped fibers

Weill¹,

Bekker²,

Levit³

et al. 2017

Opt. Express

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We demonstrate thermalization and Bose-Einstein (BE) distribution of photons in standard erbium-doped fibers (edf) in a broad spectral range up to ~200nm at the 1550nm wavelength regime. Our measurements were done at a room temperature ~300K and 77K. It is a special demonstration of thermalization of photons in fiber cavities and even in open fibers. They are one-dimensional (1D), meters-long, with low finesse, high loss and small capture fraction of the spontaneous emission. Moreover, we find in the edf cavities coexistence of thermal-equilibrium (TE) and thermal lasing without an overall inversion (T-LWI). The experimental results are supported by a theoretical analysis based on the rate equations.

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Boris Levit

Temporal differentiation of optical signals using a phase-shifted fiber Bragg grating

Bose–Einstein condensation of photons in an erbium–ytterbium co-doped fiber cavity

Broadband arbitrary waveform generation based on microwave frequency upshifting in optical fibers

Spectro-Temporal Imaging of Optical Pulses With a Single Time Lens

Thermalization of one-dimensional photon gas and thermal lasers in erbium-doped fibers

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