Heping Zeng scite author profile

We demonstrate the decoy-state quantum key distribution (QKD) with one-way quantum communication in polarization space over 102 km. Further, we simplify the experimental setup and use only one detector to implement the one-way decoy-state QKD over 75 km, with the advantage to overcome the security loopholes due to the efficiency mismatch of detectors. Our experimental implementation can really offer the unconditionally secure final keys. We use 3 different intensities of 0, 0.2, and 0.6 for the light sources in our experiment. In order to eliminate the influences of polarization mode dispersion in the long-distance single-mode optical fiber, an automatic polarization compensation system is utilized to implement the active compensation.

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Improving the photocatalytic hydrogen production of Ag/g-C₃N₄ nanocomposites by dye-sensitization under visible light irradiation

Qin

et al. 2016

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Ag nanoparticles were deposited on the surface of g-C3N4 by a chemical reduction method to increase visible-light absorption via the localized surface plasmon resonance effect, resulting in the reduced recombination of photo-generated electron-holes and enhanced photocatalytic activity. The Ag/g-C3N4 composite with a Ag loading of 3 wt% has the optimum photoactivity that is almost 3.6 and 3.4 times higher than pure g-C3N4 and the same photocatalysis system which has been reported, respectively. Fluorescein was introduced as a photosensitizer and H2 evolution soared to 2014.20 μmol g(-1) h(-1) and the rate is even about 4.8 times higher than that of the 3 wt% Ag/g-C3N4 composite. The chemical structure, composites, morphologies and optical properties of the obtained products are well-characterized by XRD, FTIR, TEM, EDS, XPS and UV-Vis DRS. Meanwhile, the photocatalyst exhibits high stability and reusability.

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Breathing dissipative solitons in mode-locked fiber lasers

et al. 2019

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Dissipative solitons are self-localized coherent structures arising from the balance between energy supply and dissipation. Besides stationary dissipative solitons, there are dynamical ones exhibiting oscillatory behavior, known as breathing dissipative solitons. Substantial interest in breathing dissipative solitons is driven by both their fundamental importance in nonlinear science and their practical applications, such as in spectroscopy. Yet, the observation of breathers has been mainly restricted to microresonator platforms. Here, we generate breathers in a mode-locked fiber laser. They exist in the laser cavity under the pump threshold of stationary mode locking. Using fast detection, we are able to observe the temporal and spectral evolutions of the breathers in real time. Breathing soliton molecules are also observed. Breathers introduce a new regime of mode locking into ultrafast lasers. Our findings may contribute to the design of advanced laser sources and open up new possibilities of generating breathers in various dissipative systems.

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Advances in intense femtosecond laser filamentation in air

et al. 2011

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Room temperature triggered single-photon source in the near infrared

Rabeau

Roger

et al. 2007

New J. Phys.

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We report the realization of a solid-state triggered single-photon source with narrow emission in the near infrared at room temperature. It is based on the photoluminescence of a single nickel-nitrogen NE8 colour centre in a chemical vapour deposited diamond nanocrystal. Stable single-photon emission has been observed in the photoluminescence under both continuous-wave and pulsed excitations. The realization of this source represents a step forward in the application of diamond-based single-photon sources to Quantum Key Distribution (QKD) under practical operating conditions.

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Build‐Up of Dissipative Optical Soliton Molecules via Diverse Soliton Interactions

Peng

Zeng

2018

Laser & Photonics Reviews

139

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Solitons can form bound states that are frequently referred to as soliton molecules as they exhibit molecule‐like dynamics. The build‐up phase of the optical soliton molecule remains elusive. Here, by means of a time‐stretch technique that enables real‐time access to the spectral and temporal dynamics, rich nonlinear processes involved in the build‐up of soliton molecules are revealed in an ultrafast fibre laser. Specifically, the formation of closely‐ and well‐separated bound solitons are resolved. In both cases, the build‐up phases consist of three nonlinear stages including mode locking, soliton splitting, and soliton interactions. For closely‐separated bound solitons, soliton interactions display wide diversities in repeated measurements, including soliton attraction, repelling, collision, vibration, and annihilation. For well‐separated bound solitons, repulsive interactions dominate the soliton interactions. Numerical simulations corroborate these experimental observations. Furthermore, a conceptually different soliton molecule, the intermittent‐vibration soliton molecule, is discovered and characterized. It is the intermediate state between the vibrational and stationary soliton molecules. The author's findings could assist in the understanding of the build‐up phase of localized structures in different dissipative systems.

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Narrow-band single-photon emission in the near infrared for quantum key distribution

Wu¹,

Jacques²,

Zeng³

et al. 2006

Opt. Express

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We present a detailed study of photophysical properties of single color centers in natural diamond samples emitting in the near infrared under optical excitation. Photoluminescence of these single emitters has several striking features, including narrow-band (FWHM 2 nm) fully polarized emission around 780 nm, a short excited-state lifetime of about 2 ns, and perfect photostability at room temperature under our excitation conditions. Development of a triggered single-photon source relying on this single color center is discussed for application to quantum key distribution.

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Real-time observation of dissipative soliton formation in nonlinear polarization rotation mode-locked fibre lasers

et al. 2018

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Formation of coherent structures and patterns from unstable uniform state or noise is a fundamental physical phenomenon that occurs in various areas of science ranging from biology to astrophysics. Understanding of the underlying mechanisms of such processes can both improve our general interdisciplinary knowledge about complex nonlinear systems and lead to new practical engineering techniques. Modern optics with its high precision measurements offers excellent test-beds for studying complex nonlinear dynamics, though capturing transient rapid formation of optical solitons is technically challenging. Here we unveil the build-up of dissipative soliton in mode-locked fibre lasers using dispersive Fourier transform to measure spectral dynamics and employing autocorrelation analysis to investigate temporal evolution. Numerical simulations corroborate experimental observations, and indicate an underlying universality in the pulse formation. Statistical analysis identifies correlations and dependencies during the build-up phase. Our study may open up possibilities for real-time observation of various nonlinear structures in photonic systems.

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Heping Zeng

Experimental Long-Distance Decoy-State Quantum Key Distribution Based on Polarization Encoding

Improving the photocatalytic hydrogen production of Ag/g-C₃N₄ nanocomposites by dye-sensitization under visible light irradiation

Breathing dissipative solitons in mode-locked fiber lasers

Advances in intense femtosecond laser filamentation in air

Room temperature triggered single-photon source in the near infrared

Build‐Up of Dissipative Optical Soliton Molecules via Diverse Soliton Interactions

Narrow-band single-photon emission in the near infrared for quantum key distribution

Real-time observation of dissipative soliton formation in nonlinear polarization rotation mode-locked fibre lasers

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Heping Zeng

Experimental Long-Distance Decoy-State Quantum Key Distribution Based on Polarization Encoding

Improving the photocatalytic hydrogen production of Ag/g-C3N4 nanocomposites by dye-sensitization under visible light irradiation

Breathing dissipative solitons in mode-locked fiber lasers

Advances in intense femtosecond laser filamentation in air

Room temperature triggered single-photon source in the near infrared

Build‐Up of Dissipative Optical Soliton Molecules via Diverse Soliton Interactions

Narrow-band single-photon emission in the near infrared for quantum key distribution

Real-time observation of dissipative soliton formation in nonlinear polarization rotation mode-locked fibre lasers

Contact Info

Product

Resources

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Improving the photocatalytic hydrogen production of Ag/g-C₃N₄ nanocomposites by dye-sensitization under visible light irradiation