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33 results on '"Ping Xiang"'

1. Non-adiabatic control of quantum energy transfer in ordered and disordered arrays

Author

Ping Xiang, Marina Litinskaya, Evgeny A Shapiro, and Roman V Krems

Subjects
Science, Physics, QC1-999
Abstract

An elementary excitation in an aggregate of coupled particles generates a collective excited state. We show that the dynamics of these excitations can be controlled by applying a transient external potential which modifies the phase of the quantum states of the individual particles. The method is based on an interplay of adiabatic and sudden time scales in the quantum evolution of the many-body states. We show that specific phase transformations can be used to accelerate or decelerate quantum energy transfer and spatially focus delocalized excitations onto different parts of arrays of quantum particles. We consider possible experimental implementations of the proposed technique and study the effect of disorder due to the presence of impurities on its fidelity. We further show that the proposed technique can allow control of energy transfer in completely disordered systems.

Published
2013
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3. The influence of materials parameters on chloride diffusion coefficient in concrete

Author

Ping-xiang Ding

Subjects
Materials science, Ground granulated blast-furnace slag, Fly ash, medicine, Mix proportion, Factorial experiment, Diffusion (business), Composite material, Chloride, medicine.drug
Abstract

In order to investigate the influence of materials parameters on chloride diffusion coefficient in concrete, experiments were conducted by orthogonal design and factorial design, and 15 sets of concrete specimens with different mix proportion were prepared. RCM test for each concrete specimen was performed to determine the chloride diffusion coefficient. Results show that water-to-binder ratio, replacement of mineral admixtures and the ratio of replacement of fly ash to replacement of granulated blast furnace slag have a significant influence on chloride diffusion coefficient, but the water-to-binder ratio is the most important one.

Published
2021

8. The mini-QSO's contribution to cosmic reionization

Author

Ying-Ying Wang, Jing-Meng Hao, Ye-Fei Yuan, Lei Wang, Yu Wang, and Shou-Ping Xiang

Subjects
Physics, COSMIC cancer database, Space and Planetary Science, Dark matter, Velocity dispersion, Astronomy, Astronomy and Astrophysics, Halo, Astrophysics, Reionization, Redshift
Abstract

By employing an improved simulation of the evolution of black holes (BHs) based on the merger tree of dark matter halos, we explore the relationship between the central BH mass M bh and velocity dispersion σ * at high redshift z ≥ 6 and quantify the mini-QSO's (with BH mass M = 200 - 105 M ⊙ ) contribution to cosmic reionization. The simulation demonstrates how seed BHs migrate onto the M BH -σ * relation by merging with each other and accreting gas at z ≥ 6: 1. The correlation between BHs and their host halos increases as the BHs grow; 2. The slope, i.e. Φ = d log( M bh )/d log(σ * ) in the relationship, is insensitive to the redshift at z > 6. In agreement with previous work, we find that mini-QSOs' ionizing capability to the Universe lies in the range ~ 25% - 50% if early miniquasars have extremely high duty cycles, i.e. P ( z > 6) ~ 0.9 - 1.

Published
2010

9. The Effect of AGN and SNe Feedback on Star Formation, Reionization and the Near Infrared Background

Author

Shou-Ping Xiang, Jirong Mao, Lei Wang, and Ye-Fei Yuan

Subjects
Physics, Active galactic nucleus, Cold dark matter, Star formation, Astrophysics::High Energy Astrophysical Phenomena, Astronomy, Astronomy and Astrophysics, Astrophysics::Cosmology and Extragalactic Astrophysics, Astrophysics, Lambda, Redshift, Supernova, Space and Planetary Science, Galaxy formation and evolution, Astrophysics::Solar and Stellar Astrophysics, Reionization, Astrophysics::Galaxy Astrophysics
Abstract

Feedback from supernovae (SNe) and from active galactic nuclei (AGN) accompanies the history of star formation and galaxy evolution. We present an analytic model to explain how and when the SNe and AGN exert their feedback effects oil the star formation and galaxy evolution processes. By using SNe and AGN kinetic feedback mechanisms based on the Lambda Cold Dark Matter (LCDM) model, we explore how these feedback mechanisms affect the star formation history (SFH), the Near-Infrared Background (NIRB) flux and the cosmological reionization. We find the values of the feedback strengths, epsilon(AGN) = 1.0(-0.3)(+0.5) and epsilon(SN) = 0.04(-0.02)(+0.02), can provide a reasonable explanation of most of the observational re sults, and that the AGN feedback effect on star formation history is quite different from the SNe feedback at high redshifts. Our conclusions manifest quantitatively that these feedback effects decrease star formation rate density (SFRD) and the NIRB flux (in 1.4 - 4.0 mu m), and postpone the time of completion of the cosmological reionization.

Published
2008

10. Strain transfer analysis of optical fiber based sensors embedded in an asphalt pavement structure

Author

Ping Xiang and Huaping Wang

Subjects
Optical fiber, Materials science, Strain (chemistry), business.industry, Applied Mathematics, 0211 other engineering and technologies, 02 engineering and technology, Viscoelasticity, law.invention, Stress (mechanics), Asphalt concrete, 020303 mechanical engineering & transports, 0203 mechanical engineering, law, Fiber optic sensor, 021105 building & construction, Fiber, Composite material, business, Instrumentation, Engineering (miscellaneous), Beam (structure)
Abstract

Asphalt pavement is vulnerable to random damage, such as cracking and rutting, which can be proactively identified by distributed optical fiber sensing technology. However, due to the material nature of optical fibers, a bare fiber is apt to be damaged during the construction process of pavements. Thus, a protective layer is needed for this application. Unfortunately, part of the strain of the host material is absorbed by the protective layer when transferring the strain to the sensing fiber. To account for the strain transfer error, in this paper a theoretical analysis of the strain transfer of a three-layered general model has been carried out by introducing Goodman's hypothesis to describe the interfacial shear stress relationship. The model considers the viscoelastic behavior of the host material and protective layer. The effects of one crack in the host material and the sensing length on strain transfer relationship are been discussed. To validate the effectiveness of the strain transfer analysis, a flexible asphalt-mastic packaged distributed optical fiber sensor was designed and tested in a laboratory environment to monitor the distributed strain and appearance of cracks in an asphalt concrete beam at two different temperatures. The experimental results indicated that the developed strain transfer formula can significantly reduce the strain transfer error, and that the asphalt-mastic packaged optical fiber sensor can successfully monitor the distributed strain and identify local cracks.

Published
2016

11. A new modeling and simulation method for important statistical performance prediction of single photon avalanche diode detectors

Author

Ping Xiang, Yue Xu, Xiaopeng Xie, and Yang Huang

Subjects
010302 applied physics, Physics, Physics::Instrumentation and Detectors, Detector, 02 engineering and technology, Condensed Matter Physics, 01 natural sciences, Electronic, Optical and Magnetic Materials, Computational physics, law.invention, Modeling and simulation, Impact ionization, 020210 optoelectronics & photonics, Single-photon avalanche diode, law, Electric field, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, Materials Chemistry, Performance prediction, Geiger counter, Electrical and Electronic Engineering, Technology CAD
Abstract

This paper presents a new modeling and simulation method to predict the important statistical performance of single photon avalanche diode (SPAD) detectors, including photon detection efficiency (PDE), dark count rate (DCR) and afterpulsing probability (AP). Three local electric field models are derived for the PDE, DCR and AP calculations, which show analytical dependence of key parameters such as avalanche triggering probability, impact ionization rate and electric field distributions that can be directly obtained from Geiger mode Technology Computer Aided Design (TCAD) simulation. The model calculation results are proven to be in good agreement with the reported experimental data in the open literature, suggesting that the proposed modeling and simulation method is very suitable for the prediction of SPAD statistical performance.

Published
2016

13. Non-adiabatic control of quantum energy transfer in ordered and disordered arrays

Author

Roman V. Krems, Marina Litinskaya, Evgeny A. Shapiro, and Ping Xiang

Subjects
Physics, Quantum Physics, Atomic Physics (physics.atom-ph), FOS: Physical sciences, General Physics and Astronomy, 02 engineering and technology, 021001 nanoscience & nanotechnology, 7. Clean energy, 01 natural sciences, Molecular physics, Quantum evolution, Physics - Atomic Physics, Delocalized electron, Quantum state, Excited state, 0103 physical sciences, Energy level, Quantum Physics (quant-ph), 010306 general physics, 0210 nano-technology, Adiabatic process, Quantum, Excitation
Abstract

An elementary excitation in an aggregate of coupled particles generates a collective excited state. We show that the dynamics of these excitations can be controlled by applying a transient external potential which modifies the phase of the quantum states of the individual particles. The method is based on an interplay of adiabatic and sudden time scales in the quantum evolution of the many-body states. We show that specific phase transformations can be used to accelerate or decelerate quantum energy transfer and spatially focus delocalized excitations onto different parts of arrays of quantum particles. We consider possible experimental implementations of the proposed technique and study the effect of disorder due to the presence of impurities on its fidelity. We further show that the proposed technique can allow control of energy transfer in completely disordered systems., Comment: 25 pages, 9 figures

Published
2013

25. Effective absorption enhancement in small molecule organic solar cells using trapezoid gratings.

Author

Chun-Ping, Xiang, Yu, Jin, Jie-Tao, Liu, Bin-Zong, Xu, Wei-Min, Wang, Xin, Wei, Guo-Feng, Song, and Yun, Xu

Subjects
*SOLAR cells, *TRAPEZOIDS, *LIGHT absorption, *ELECTROMAGNETIC wave absorption, *PLASMONS (Physics), *SHORT-circuit currents
Abstract

We demonstrate that the optical absorption is enhanced in small molecule organic solar cells by using a trapezoid grating structure. The enhanced absorption is mainly attributed to both waveguide modes and surface plasmon modes, which is simulated by using finite-difference time-domain method. The simulated results show that the surface plasmon along the semitransparent metallic Ag anode is excited by introducing the periodical trapezoid gratings, which induce the increase of high intensity field in the donor layer. Meanwhile, the waveguide modes result in a high intensity field in acceptor layer. The increase of field improves the absorption of organic solar cells significantly, which is demonstrated by simulating the electrical properties. The simulated results also show that the short-circuit current is increased by 31% in an optimized device, which is supported by the experimental measurement. Experimental result shows that the power conversion efficiency of the grating sample is increased by 7.7%. [ABSTRACT FROM AUTHOR]

Published
2014
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28. Heat treatment on phase evolution of Bi-2223 precursor powder prepared by spray pyrolysis method.

Author

Li-Jun Cui, Ping-Xiang Zhang, Jin-Shan Li, Guo Yan, Yong Feng, Xiang-Hong Liu, Jian-Feng Li, Xi-Feng Pan, Fan Yang, Sheng-Nan Zhang, Xiao-Bo Ma, and Guo-Qing Liu

Subjects
*HEAT treatment, *CRITICAL currents, *SPRAYING, *BIOLOGICAL evolution, *PYROLYSIS, *POWDERS
Abstract

The phase evolution of Bi-2223 precursor powder prepared by spray pyrolysis method is studied with different heat treatment parameters. The results show that the reaction temperature and phase composition of precursor powder depend on heat treatment atmosphere. Phase assemblage of (Bi,Pb)-2212, AEC, CuO, and small Bi-2201 can be obtained by heat-treated in N2-0.1%O2 atmosphere. For precursor powder, there is sufficient reaction process at 770 °C, and the dimension of Bi-2212 phase increases rapidly with the increase of heat treatment temperature and time. The dimension of AEC phase also increases by extending heat treatment time. As a balance among phase assemblage, dimension of particle and adequate reaction, a reasonable precursor powder can be obtained by heat-treated at 770 °C for 12 h–16 h in N2-0.1%O2 atmosphere. Critical current of 37-filament Bi-2223 tape is about 120 A, which confirms that these heat treatment parameters are reasonable. [ABSTRACT FROM AUTHOR]

Published
2019
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29. Influence of Precursor Powder Fabrication Methods on the Superconducting Properties of Bi-2223 Tapes.

Author

Li-Jun Cui, Ping-Xiang Zhang, Guo Yan, Yong Feng, Xiang-Hong Liu, Jian-Feng Li, Xi-Feng Pan, Sheng-Nan Zhang, Xiao-Bo Ma, and Jin-Shan Li

Subjects
*METAL powders, *SUPERCONDUCTING tape, *FABRICATION (Manufacturing), *COPRECIPITATION (Chemistry), *CALCINATION (Heat treatment)
Abstract

Bi-2223 precursor powders are prepared by both oxalate co-precipitation (CP) and spray pyrolysis (SP) methods. The influence of fabrication methods on the superconducting properties of Bi-2223 tapes are systematically studied. Compared to the CP method, SP powder exhibits spherical particle before calcination and smaller particle size after calcinations with more uniform chemical composition, which leads to a lower reaction temperature during calcination process for Bi-2223 tapes. Meanwhile, the non-superconducting phases in SP powder are more uniformly distributed with smaller particle sizes. These features result in finer homogeneity of critical current in large-length of Bi-2223 tape, higher density of filaments and better texture after heat treatment. Therefore, the SP method could be considered as a better route to prepare precursor powder for large-length Bi-2223 tape fabrication. [ABSTRACT FROM AUTHOR]

Published
2019
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30. Strain transfer analysis of optical fiber based sensors embedded in an asphalt pavement structure.

Author

Huaping Wang and Ping Xiang

Subjects
ASPHALT testing, PAVEMENT testing, CRACKING of asphalt pavements, OPTICAL fiber detectors, STRAINS & stresses (Mechanics), VISCOELASTIC materials
Abstract

Asphalt pavement is vulnerable to random damage, such as cracking and rutting, which can be proactively identified by distributed optical fiber sensing technology. However, due to the material nature of optical fibers, a bare fiber is apt to be damaged during the construction process of pavements. Thus, a protective layer is needed for this application. Unfortunately, part of the strain of the host material is absorbed by the protective layer when transferring the strain to the sensing fiber. To account for the strain transfer error, in this paper a theoretical analysis of the strain transfer of a three-layered general model has been carried out by introducing Goodman’s hypothesis to describe the interfacial shear stress relationship. The model considers the viscoelastic behavior of the host material and protective layer. The effects of one crack in the host material and the sensing length on strain transfer relationship are been discussed. To validate the effectiveness of the strain transfer analysis, a flexible asphalt-mastic packaged distributed optical fiber sensor was designed and tested in a laboratory environment to monitor the distributed strain and appearance of cracks in an asphalt concrete beam at two different temperatures. The experimental results indicated that the developed strain transfer formula can significantly reduce the strain transfer error, and that the asphalt-mastic packaged optical fiber sensor can successfully monitor the distributed strain and identify local cracks. [ABSTRACT FROM AUTHOR]

Published
2016
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31. A new modeling and simulation method for important statistical performance prediction of single photon avalanche diode detectors.

Author

Yue Xu, Ping Xiang, Xiaopeng Xie, and Yang Huang

Subjects
*SIMULATION methods & models, *SINGLE photon generation, *AVALANCHE diodes, *ELECTRIC fields, *PHOTON detectors
Abstract

This paper presents a new modeling and simulation method to predict the important statistical performance of single photon avalanche diode (SPAD) detectors, including photon detection efficiency (PDE), dark count rate (DCR) and afterpulsing probability (AP). Three local electric field models are derived for the PDE, DCR and AP calculations, which show analytical dependence of key parameters such as avalanche triggering probability, impact ionization rate and electric field distributions that can be directly obtained from Geiger mode Technology Computer Aided Design (TCAD) simulation. The model calculation results are proven to be in good agreement with the reported experimental data in the open literature, suggesting that the proposed modeling and simulation method is very suitable for the prediction of SPAD statistical performance. [ABSTRACT FROM AUTHOR]

Published
2016
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32. Ultrashort pulse breaking in optical fiber with third-order dispersion and quintic nonlinearity.

Author

Xian-Qiong Zhong, Xiao-Xia Zhang, Ke Cheng, and An-Ping Xiang

Subjects
ULTRA-short pulsed lasers, OPTICAL fibers, QUINTIC equations, NONLINEAR Schrodinger equation, COMPUTER simulation, PULSE compression (Signal processing), OPTICAL waveguides
Abstract

The optical wave breaking (OWB) characteristics in terms of the pulse shape, spectrum, and frequency chirp, in the normal dispersion regime of an optical fiber with both the third-order dispersion (TOD) and quintic nonlinearity (QN) are numerically calculated. The results show that the TOD causes the asymmetry of the temporal- and spectral-domain, and the chirp characteristics. The OWB generally appears near the pulse center and at the trailing edge of the pulse, instead of at the two edges of the pulse symmetrically in the case of no TOD. With the increase of distance, the relation of OWB to the TOD near the pulse center increases quickly, leading to the generation of ultra-short pulse trains, while the OWB resulting from the case of no TOD at the trailing edge of the pulse disappears gradually. In addition, the positive (negative) QN enhances (weakens) the chirp amount and the fine structures, thereby inducing the OWB phenomena to appear earlier (later). Thus, the TOD and the positive (negative) QN are beneficial (detrimental) to the OWB and the generation of ultra-short pulse trains. [ABSTRACT FROM AUTHOR]

Published
2014
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33. Magnetization study of ITER-type internal-Sn Nb3Sn superconducting wire.

Author

Chao-Wu, Zhang, Lian, Zhou, Sulpice, Andre, Soubeyroux, Jean-Louis, Verwaerde, Christophe, Hoang, Gia Ky, Ping-Xiang, Zhang, Ya-Feng, Lu, and Xian-De, Tang

Abstract

Through magnetization measurement with a SQUID magnetometer the heat treatment optimization of an international thermonuclear experimental reactor (ITER)-type internal-Sn Nb3Sn superconducting wire has been investigated. The irreversibility temperature T*(H), which is mainly dependent on A15 phase composition, was obtained by a warming and cooling cycle at a fixed field. The hysteresis width ΔM(H) which reflects the flux pinning situation of the A15 phase is determined by the sweeping of magnetic field at a constant temperature. The results obtained from differently heat-treated samples show that the combination of T*(H) with ΔM(H) measurement is very effective for optimizing the heat reaction process. The heat treatment condition of the ITER-type wire is optimized at 675°C/128 h, which results in a composition closer to stoichiometric Nb3Sn and a state with best flux pinning. [ABSTRACT FROM AUTHOR]

Published
2007
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