Zhaoxing Liang scite author profile

Zhaoxing Liang

3Publications

38Citation Statements Received

41Citation Statements Given

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112

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Shenzhen University, South China Normal University

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Tunable angle-independent refractive index sensor based on Fano resonance in integrated metal and graphene nanoribbons

Pan

Liang

Wang

et al. 2016

Sci Rep

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We propose a novel mechanism to construct a tunable and ultracompact refractive index sensor by using the Fano resonance in metal-graphene hybrid nanostructure. Plasmon modes in graphene nanoribbons and waveguide resonance modes in the slits of metal strip array coexist in this system. Strong interference between the two different modes occurs when they are spectrally overlapped, resulting in a Fano-type asymmetrically spectral lineshape which can be used for detecting the variations of ambient refractive index. The proposed sensor has a relatively high figure of merit (FOM) over 20 and its sensing performance shows a good tolerance to roughness. In addition to the wide range measurement enabled by the electrical tuning of graphene plasmon modes, such ultracompact system also provides an angle-independent operation and therefore, it can efficiently work for the detection of gas, liquid, or solids. Such optical nanostructure may also be applied to diverse fields such as temperature/pressure metering, medical detection, and mechanical precision measurement.

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Controllable one-step doping synthesis for the white-light emission of cesium copper iodide perovskites

et al. 2021

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In this paper, a controllable one-step doping method has been successfully adopted in the cesium copper iodide perovskite’s luminescence, a high-quality white-light emission with Commission Internationale de l´Eclairage (CIE) coordinates of (0.3397, 0.3325), and a color rendering index (CRI) reaching up to 90 was realized in a convenient way. Through adding impurities into the Cs 3 Cu 2 I 5 system, high efficiency and stable CsCu 2 I 3 was synthesized, and the coexistence of varied high luminescence phases realized the white lighting. Strikingly, blue-emitting Cs 3 Cu 2 I 5 and yellow-emitting CsCu 2 I 3 could coexist, and their respective luminescence was not interacted in the compound, which was beneficial for acquiring a single emission and highly efficient white lighting. This work carried out a deep exploration of the Cu-based metal halides, and would be favorable to the applications of lead-free perovskites.

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Temperature-insensitive broadband optical parametric chirped pulse amplification based on a tilted noncollinear QPM design

Dai

Liang

et al. 2019

Opt. Express

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Ultrafast pulsed laser of high intensity and high repetition rate is the combined requisite for advancing strong-field physics experiments and calls for the development of thermal-stable ultrafast laser systems. Noncollinear phasing matching (PM) is an effective solution of optimizing the properties of optical parametric chirped pulse amplification (OPCPA) to achieve broadband amplification or to be temperature-insensitive. But as a cost, distinct noncollinear geometries have to be respectively satisfied. In this paper, a noncollinear quasi-phase-matching (QPM) scheme of both temperature- and wavelength-insensitive is presented. With the assistance of the design freedom of grating wave vector, the independent noncollinear-angle requirements can be simultaneously realized in a tilted QPM crystal, and the temperature-insensitive broadband amplification is achieved. Full-dimensional spatial-temporal simulations for a typical 1064 nm pumped mid-IR OPCPA at 3.4 µm are presented in detail. Compared with a mono-functional temperature-insensitive or broadband QPM scheme, the presented QPM configuration shows a common characteristic that simultaneously optimizes the thermal stability and the gain spectrum. Broadband parametric amplification of a ∼40 fs (FWHM) pulsed laser is achieved with no signs of gain-narrowing. Both of the beam profiles and the amplified spectra stay constant while the temperature is elevated by ∼100°C. Finally, influence of the QPM grating errors on the gain spectrum is discussed.

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Zhaoxing Liang

Tunable angle-independent refractive index sensor based on Fano resonance in integrated metal and graphene nanoribbons

Controllable one-step doping synthesis for the white-light emission of cesium copper iodide perovskites

Temperature-insensitive broadband optical parametric chirped pulse amplification based on a tilted noncollinear QPM design

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