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Your search keyword '"Zhu, Lin-Fan"' showing total 238 results
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238 results on '"Zhu, Lin-Fan"'

1. Classical, semi-classical and quantum optical models for x-ray planar cavity with electronic resonance

Author

Huang, Xin-Chao, Li, Tian-Jun, Lima, Frederico Alves, and Zhu, Lin-Fan

Subjects
Quantum Physics
Abstract

Here two theoretical models of semi-classical matrix and quantum Green's function are developed for the system of x-ray thin-film planar cavity with inner-shell electronic resonances. The semi-classical model is based on the matrix formalism to treat each layer as the propagating matrix. The crucial idea is to expand the propagating matrix of the resonant atomic layer under ultrathin-film approximation, then derive the analytical expression of the spectral observation, i.e, the cavity reflectance. The typical cavity effects of cavity enhanced decay rate, cavity induced energy shift and the Fano interference which were observed in the recent experiments could be phenomenologically interpreted. The second quantum model employs the analytical Green's function to solve the cavity system. The system Hamiltonian and the effective energy-level are derived. The effective energy-level scheme indicates that the cavity effect acts on the regulation of the intermediated core-hole state. To test the validity of the semi-classical matrix and quantum Green's function models, the classical Parratt's formalism and the dispersion correction of the atomic refractive index are also recalled. Very good agreements in reflectivity spectra between semi-classical and quantum models with the Parratt's results are observed. The present semi-classical matrix and quantum Green's function models will be useful to predict the new phenomena and optimize the cavity structures for future experiments and promote the emerging of quantum optical effects with modern x-ray spectroscopy techniques., Comment: 16 pages, 14 figures

Published
2022

2. Probing dissipation process via Fano resonance and collective effect in the X-ray cavity

Author

Li, Tian-Jun, Huang, Xin-Chao, Ma, Zi-Ru, Li, Bo, and Zhu, Lin-Fan

Subjects
Quantum Physics
Abstract

In the absence of time-reversal symmetry, the asymmetric parameter q of the Fano resonance is extended into the complex space, where its trajectory can be utilized to investigate the decoherence process. By embedding the ensemble of M$\ddot{\rm{o}}$ssbauer nuclei in the thin-film planar cavity in this work, the trajectories of asymmetric parameter q are studied via the collective effect of the nuclear ensemble, which is regulated by the nuclear abundance and angle offset. Due to the diverse controllable methods of the collective resonant strength, there are different straight lines and arc-shape trajectories in the complex plane, in which the slopes and the radius can be respectively adjusted by the angle offset and nuclear abundance. It is demonstrated that the dissipation process can be suppressed equivalently by the strong energy exchange between the cavity and nuclear ensemble. The present results could enrich the behaviors of the asymmetric parameter q in the complex plane and would provide new possibility for the decoherence research through the thin-film planar cavity.

Published
2022

4. Controlling core-hole lifetime through an x-ray planar cavity

Author

Huang, Xin-Chao, Kong, Xiang-Jin, Li, Tian-Jun, Ma, Zi-Ru, Wang, Hong-Chang, Liu, Gen-Chang, Wang, Zhan-Shan, Li, Wen-Bin, and Zhu, Lin-Fan

Subjects
Physics - Atomic Physics, Quantum Physics
Abstract

It has long been believed that core-hole lifetime (CHL) of an atom is an intrinsic physical property, and controlling it is significant yet is very hard. Here, CHL of the 2p state of W atom is manipulated experimentally through adjusting the emission rate of a resonant fluorescence channel with the assistance of an x-ray thin-film planar cavity. The emission rate is accelerated by a factor linearly proportional to the cavity field amplitude, that can be directly controlled by choosing different cavity modes or changing the angle offset in experiment. This experimental observation is in good agreement with theoretical predictions. It is found that the manipulated resonant fluorescence channel even can dominate the CHL. The controllable CHL realized here will facilitate the nonlinear investigations and modern x-ray scattering techniques in hard x-ray region., Comment: 5 pages, 4 figures

Published
2021
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9. Low energy range dielectronic recombination of Fluorine-like Fe17+ at the CSRm

Author

Khan, Nadir, Huang, Zhong-Kui, Wen, Wei-Qiang, Mahmood, Sultan, Dou, Li-Jun, Wang, Shu-Xing, Xu, Xin, Wang, Han-Bing, Chen, Chong-Yang, Chuai, Xiao-Ya, Zhu, Xiao-Long, Zhao, Dong-Mei, Mao, Li-Jun, Li, Jie, Yin, Da-yu, Yang, Jian-Cheng, Yuan, You-Jin, Zhu, Lin-Fan, and Ma, Xin-Wen

Subjects
Physics - Atomic Physics
Abstract

The accuracy of dielectronic recombination (DR) data for astrophysics related ions plays a key role in astrophysical plasma modeling. The measurement of the absolute DR rate coefficient of Fe17+ ions was performed at the main cooler storage ring at Institute of Modern Physics, Lanzhou, China. The experimental electron-ion collision energy range covers first Rydberg series up to n = 24 for the DR resonances associated with the 2P1/2--2P3/2 dn = 0 core excitations. A theoretical calculation was performed by using FAC code and compared with the measured DR rate coefficient. Overall reasonable agreement was found between the experimental results and calculations. Moreover, plasma rate coefficient was deduced from the experimental DR rate coefficient and compared with the available results from the literature. At the low energy range significant discrepancies were found therein and the measured resonances challenged state-of-the-art theory at the low collision energies., Comment: to be published in Chinese Physics C

Published
2018
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20. Modified dynamics of weakly coupled BEC's Josephson Junction (BJJ)

Author

Huang, Yu-ping, Yuan, Zhen-sheng, Zhu, Lin-fan, Luo, Lin-jiao, Liu, Xiao-jing, and Xu, Ke-zun

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

The tunnelling quantum dynamics of bimodal BJJ system is modified through introducing an equilibrium condition, which is based on the assumption that the BJJ is tend to keep on its ground state (with a lowest energy) during the oscillation. The tunnelling dynamics of BJJ with symmetric and asymmetric traps is discussed through numerically solving the modified equations. Stationary states are found to exist in the both BJJs. Compared to previous works, the macroscopic quantum self trapping (MQST) is auto-avoided. Meanwhile, it is revealed that the BJJ oscillates with its inherent frequency which is only related to the Josephson energy, which has been testified experimentally in other contexts., Comment: 5 pages, 3 figures, submitted to Phys. Rev. A

Published
2003

23. Dielectronic recombination rate coefficients of carbon-like Kr30+

Author

Ma, Wan-Lu, primary, Wang, Shu-Xing, additional, Huang, Zhong-Kui, additional, Wen, Wei-Qiang, additional, Wang, Han-Bing, additional, Chen, Dong-Yang, additional, Liu, Xin, additional, Zhou, Xiao-Peng, additional, Huang, Hou-Ke, additional, Shao, Lin, additional, Liu, Chang, additional, Zhang, Chun-Yu, additional, Chen, Chong-Yang, additional, Mao, Li-Jun, additional, Ma, Xiao-Ming, additional, Li, Jie, additional, Tang, Mei-Tang, additional, Yan, Kai-Ming, additional, Zhou, Yun-Bin, additional, Zhao, Dong-Mei, additional, Yuan, You-Jin, additional, Yang, Jian-Cheng, additional, Ma, Xin-Wen, additional, and Zhu, Lin-Fan, additional

Published
2023
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30. An investigation of the anomalous asymptotic behavior of elastic electron scattering of helium.

Author

Liu, Ya-Wei, Xiong, Tao, Huang, Xin-Chao, Yang, Ke, Yu, Kuan-Li, Hiraoka, Nozomu, Tsuei, Ku-Ding, and Zhu, Lin-Fan

Subjects
ELECTRON scattering, ELASTIC scattering, MOMENTUM transfer, BORN approximation, ELECTRON impact ionization, DIFFERENTIAL cross sections, ATOMIC nucleus, ANOMALOUS Hall effect
Abstract

For the inelastic electron scattering of atoms and molecules, a consensus has been reached that the first Born approximation is easily approached by decreasing the momentum transfer at the same impact electron energy or increasing the impact electron energy at the same momentum transfer. Although this consensus is applicable for the elastic electron scattering of most atoms and molecules, it is violated for helium where the experimental differential cross sections deviate from the first Born approximation prediction gradually with the decrease of squared momentum transfer at the same impact electron energy. Since this anomalous phenomenon was observed more than 40 years ago, the intrinsic mechanism is not explicit. In the present work, using the high-resolution x-ray scattering, we isolate the scattering contribution from the nucleus and directly obtain the pure electronic structure of helium. Then, the anomalous asymptotic behavior of the elastic electron scattering of helium has been elucidated, i.e., in the small squared momentum transfer region, the scattering contribution from the target's electrons is counteracted by the one from the atomic nucleus, which results in the residual contribution beyond the first Born approximation being drastically enlarged. [ABSTRACT FROM AUTHOR]

Published
2020
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39. Cross sections for valence-shell excitations of H2O in the 9.85–12.15-eV energy-loss range studied by high-energy inelastic electron scattering

Author

Xu, Wei-Qing, primary, Peng, Yi-Geng, additional, Zhu, Jian-Hui, additional, Du, Xiao-Jiao, additional, Xu, Yuan-Chen, additional, Wang, Li-Han, additional, Li, Bo, additional, Zhang, Hao-Ran, additional, Zhang, Bei-Yuan, additional, Ma, Zi-Ru, additional, Wang, Shu-Xing, additional, Wu, Yong, additional, Wang, Jian-Guo, additional, and Zhu, Lin-Fan, additional

Published
2022
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40. Generalized oscillator strengths of the low-lying valence-shell excitations of N2, O2, and C2H2 studied by fast electron and inelastic x-ray scattering.

Author

Liu, Ya-Wei, Peng, Yi-Geng, Xiong, Tao, Wang, Shu-Xing, Huang, Xin-Chao, Wu, Yong, and Zhu, Lin-Fan

Subjects
OSCILLATOR strengths, X-ray scattering, INELASTIC scattering, MOMENTUM transfer
Abstract

The generalized oscillator strengths of the low-lying valence-shell excitations of N2, O2, and C2H2 have been studied by the high-energy electron scattering, the high-resolution inelastic X-ray scattering, and the multireference single- and double-excitation configuration-interaction methods. Good agreement between the present electron-scattering results and the X-ray-scattering ones for the a ′ ′ 1 Σ g + v ′ = 0 and a ′ ′ 1 Σ g + v ′ = 1 + b 1 Π u v ′ = 0 excitations of N2 and the A ′ 3 Δ u excitation of O2 is achieved in the small squared momentum transfer region, while obvious discrepancies among them are observed in the large squared momentum transfer region. This phenomenon indicates that the first Born approximation is satisfied in the small squared momentum transfer region, while it does not hold in the large squared momentum transfer region at an incident electron energy of 1500 eV, in view of the fact that the first Born approximation is satisfied in the X-ray scattering. In addition, the present calculation for the a ′ ′ 1 Σ g + excitation shows that the traditional assigned v′ = 0 and 1 of the a ″ 1 Σ g + excitation correspond to v′ = 9 and 13 of the 2 1 Σ g + excitation and reproduces the X-ray-scattering results of the a ′ ′ 1 Σ g + v ′ = 0 excitation very well except the ones in the small squared momentum transfer region. We also report the generalized oscillator strengths of the A ̃ + B ̃ excitations of C2H2, and its profile shows that the bending geometry has great influence on the transition feature. [ABSTRACT FROM AUTHOR]

Published
2019
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41. Oscillator strengths and integral cross sections of the ÃA2″1← X̃1A1 excitation of ammonia studied by fast electron impact.

Author

Chen, Tao, Liu, Ya-Wei, Du, Xiao-Jiao, Xu, Yuan-Chen, and Zhu, Lin-Fan

Subjects
OSCILLATOR strengths, ELECTRON impact ionization, MOMENTUM transfer, BORN approximation, ELECTRONS, QUANTUM numbers, AMMONIA
Abstract

The vibrationally resolved generalized oscillator strengths of the first and strongest singlet excitation à A 2 ″ 1 ← X̃1A1 of ammonia have been determined at an impact electron energy of 1500 eV with an energy resolution of 80 meV. The comprehensive comparison of the present results with the previous experimental and theoretical ones shows that the high-energy limit, where the first Born approximation holds, has been reached at an impact electron energy of 1500 eV in K2 < 1 a.u., while it is still not satisfied in the K2 > 1 a.u. even at 1500 eV. It is also observed that the minimum position of the generalized oscillator strength of the vibronic state shifts toward the larger squared momentum transfer with the increasing vibrational quantum number. By extrapolating the generalized oscillator strength to the zero momentum transfer, the optical oscillator strength of the à A 2 ″ 1 state has been obtained, which gives an independent cross check to the previous results. The integral cross sections of the à A 2 ″ 1 state have been obtained systematically from the threshold to 5000 eV with the aid of the BE-scaling method. [ABSTRACT FROM AUTHOR]

Published
2019
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42. Experimental dielectronic recombination rate coefficients for lithium-like 40Ca17+

Author

Khan, Nadir, primary, Huang, Zhong-Kui, additional, Wen, Wei-Qiang, additional, Wang, Shu-Xing, additional, Chen, Chong-Yang, additional, Zhang, Chun-Yu, additional, Wang, Han-Bing, additional, Liu, Xin, additional, Ma, Wan-Lu, additional, Chen, Dong-Yang, additional, Yao, Ke, additional, Zhao, Dong-Mei, additional, Mao, Li-Jun, additional, Ma, Xiao-Ming, additional, Li, Jie, additional, Tang, Mei-Tang, additional, Yin, Da-Yu, additional, Yuan, You-Jin, additional, Yang, Jian-Cheng, additional, Zhu, Lin-Fan, additional, and Ma, Xin-Wen, additional

Published
2022
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46. Cross sections for the electron-impact excitations Ã1B1 and B̃1A1 of H2O determined by high-energy electron scattering

Author

Xu, Wei-Qing, primary, Ma, Zi-Ru, additional, Peng, Yi-Geng, additional, Du, Xiao-Jiao, additional, Xu, Yuan-Chen, additional, Wang, Li-Han, additional, Li, Bo, additional, Zhang, Hao-Ran, additional, Zhang, Bei-Yuan, additional, Zhu, Jian-Hui, additional, Wang, Shu-Xing, additional, Wu, Yong, additional, Wang, Jian-Guo, additional, and Zhu, Lin-Fan, additional

Published
2021
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