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326 results on '"Liu, Jiang-Tao"'

1. Gravitational Wave-Sensitive Photonic-Like Electronic Transport in Graphene for Efficient High-Frequency Gravitational Wave Detection

Author

Shen, Shen, Lin, Liangzhong, Li, Linfu, Liu, Jiang-Tao, Wu, Xin, and Wu, Zhenhua

Subjects
Physics - Instrumentation and Detectors, Astrophysics - Instrumentation and Methods for Astrophysics, General Relativity and Quantum Cosmology
Abstract

High-frequency gravitational waves are crucial for understanding the very early universe and distinguishing between various cosmological models, but detecting them remains a significant challenge. We investigated the effects of high-frequency gravitational waves on photonic-like electronic transport in graphene. The results show that, unlike the influence of gravitational waves on the propagation of light, the influence of gravitational waves on photonic-like electronic transport can accumulate not only in real space but also in $k$-space. This makes photonic-like electronic transport under gravitational waves similar to the propagation of light in a medium where the refractive index varies dramatically due to gravitational waves, and with shorter wavelengths. As a result, the relative intensity variation in photonic-like electronic transport under gravitational waves exceeds that of a laser interferometer with the same arm length by six orders of magnitude. At low temperatures, the influence of phonons on photon-like transport in the context of high-frequency gravitational waves can be ignored. These findings indicate a strong interaction between gravitational waves and electron transport, which helps to deepen the understanding of the interaction between gravitational waves and matter, and provides a different method for detecting high-frequency gravitational waves.

Published
2024

3. High-sensitivity graphene MEMS force and acceleration sensor based on graphene-induced non-radiative transition

Author

Lia, Guanghui, Liu, Fengman, Yanga, Shengyi, Liu, Jiang-Tao, Li, Weimin, and Wu, Zhenhua

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Applied Physics
Abstract

The micro-electromechanical-system (MEMS) force and acceleration sensor utilizing the graphene-induced non-radiative transition was investigated. The graphene-induced non-radiative transition is very sensitive to the distance, and the deflection of the graphene ribbon is highly susceptive to applied force or acceleration. Thus, a high-sensitivity MEMS sensor can be achieved with detecting the graphene ribbon's deflection of 1 nm, the force of 0.1 pN, and the acceleration of 0.1 mg. The MEMS sensor, with a size of only tens of microns, can be charged by light irradiation without connecting power sources. In addition, it allows long-distance detection, i.e., wireless transmitter circuit can be omitted. Therefore, it will have significant application prospects in the fields of micro-smart devices, wearable devices, biomedical systems, and so on., Comment: 21 pages, 4 figures

Published
2023

10. Detailed polarization measurements of the prompt emission of five Gamma-Ray Bursts

Author

Zhang, Shuang-Nan, Kole, Merlin, Bao, Tian-Wei, Batsch, Tadeusz, Bernasconi, Tancredi, Cadoux, Franck, Chai, Jun-Ying, Dai, Zi-Gao, Dong, Yong-Wei, Gauvin, Neal, Hajdas, Wojtek, Lan, Mi-Xiang, Li, Han-Cheng, Li, Lu, Li, Zheng-Heng, Liu, Jiang-Tao, Liu, Xin, Marcinkowski, Radoslaw, Orsi, Silvio, Produit, Nicolas, Pohl, Martin, Rybka, Dominik, Shi, Hao-Li, Song, Li-Ming, Sun, Jian-Chao, Szabelski, Jacek, Tymieniecka, Teresa, Wang, Rui-Jie, Wang, Yuan-Hao, Wen, Xing, Wu, Bo-Bing, Wu, Xin, Wu, Xue-Feng, Xiao, Hua-Lin, Xiong, Shao-Lin, Zhang, Lai-Yu, Zhang, Li, Zhang, Xiao-Feng, Zhang, Yong-Jie, and Zwolinska, Anna

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

Gamma-ray bursts are the strongest explosions in the Universe since the Big Bang, believed to be produced either in forming black holes at the end of massive star evolution or merging of compact objects. Spectral and timing properties of gamma-ray bursts suggest that the observed bright gamma-rays are produced in the most relativistic jets in the Universe; however, the physical properties, especially the structure and magnetic topologies in the jets are still not well known, despite several decades of studies. It is widely believed that precise measurements of the polarization properties of gamma-ray bursts should provide crucial information on the highly relativistic jets. As a result there have been many reports of gamma-ray burst polarization measurements with diverse results, see, however many such measurements suffered from substantial uncertainties, mostly systematic. After the first successful measurements by the GAP and COSI instruments, here we report a statistically meaningful sample of precise polarization measurements, obtained with the dedicated gamma-ray burst polarimeter, POLAR onboard China's Tiangong-2 spacelab. Our results suggest that the gamma-ray emission is at most polarized at a level lower than some popular models have predicted; although our results also show intrapulse evolution of the polarization angle. This indicates that the low polarization degrees could be due to an evolving polarization angle during a gamma-ray burst., Comment: 34 pages, 15 figures (16 pages and 3 figures without supplementary information). Accepted for publication in Nature Astronomy, http://dx.doi.org/10.1038/s41550-018-0664-0

Published
2019
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13. Nonmonotonic strain dependence of lattice thermal conductivity in monolayer SiC: a first-principles study

Author

Guo, San-Dong and Liu, Jiang-Tao

Subjects
Condensed Matter - Materials Science
Abstract

An increasing number of two-dimensional (2D) materials have already been achieved experimentally or predicted theoretically, which have potential applications in nano- and opto-electronics. Various applications for electronic devices are closely related to their thermal transport properties. In this work, the strain dependence of phonon transport in monolayer SiC with a perfect planar hexagonal honeycomb structure is investigated by solving the linearized phonon Boltzmann equation. It is found that room-temperature lattice thermal conductivity ($\kappa_L$) of monolayer SiC is two orders of magnitude lower than that of graphene. The low $\kappa_L$ is due to small group velocities and short phonon lifetimes, which can also be explained by polarized covalent bond due to large charge transfer from Si to C atoms. In considered strain range, it is proved that the SiC monolayer is mechanically and dynamically stable. With increased tensile strain, the $\kappa_L$ of SiC monolayer shows an unusual nonmonotonic up-and-down behavior, which is due to the competition between the change of phonon group velocities and phonon lifetimes of low frequency phonon modes. At low strains ($<$8\%), the phonon lifetimes enhancement induces the increased $\kappa_L$, while at high strains ($>$8\%) the reduction of group velocities as well as the decrease of the phonon lifetimes are the major mechanism responsible for decreased $\kappa_L$. Our works further enrich studies on phonon transports of 2D materials with a perfect planar hexagonal honeycomb structure, and motivate farther experimental studies., Comment: 8 pages, 14 figures

Published
2017
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14. Strain effects on phonon transport in antimonene from a first-principles study

Author

Zhang, Ai-Xia, Liu, Jiang-Tao, and Guo, San-Dong

Subjects
Condensed Matter - Materials Science
Abstract

Strain engineering is a very effective method to continuously tune the electronic, topological, optical and thermoelectric properties of materials. In this work, strain-dependent phonon transport of recently-fabricated antimonene (Sb monolayer) under biaxial strain is investigated from a combination of first-principles calculations and the linearized phonon Boltzmann equation. It is found that the ZA dispersion of antimonene with strain less than -1\% gives imaginary frequencies, which suggests that compressive strain can induce structural instability. Experimentally, it is possible to enhance structural stability by tensile strain. Calculated results show that lattice thermal conductivity increases with strain changing from -1\% to 6\%, and lattice thermal conductivity at 6\% strain is 5.6 times larger than that at -1\% strain at room temperature. It is interesting that lattice thermal conductivity is in inverse proportion to buckling parameter $h$ in considered strain range. Such a strain dependence of lattice thermal conductivity is attributed to enhanced phonon lifetimes caused by increased strain, while group velocities have a decreased effect on lattice thermal conductivity with increasing strain. It is found that acoustic branches dominate the lattice thermal conductivity over the full strain range. The cumulative room-temperature lattice thermal conductivity at -1\% strain converges to maximum with phonon mean free path (MFP) at 50 nm, while one at 6\% strain becomes as large as 44 $\mathrm{\mu m}$, which suggests that strain can give rise to very strong size effects on lattice thermal conductivity in antimonene. These results may provide guidance on fabrication techniques of antimonene, and offer perspectives on tuning lattice thermal conductivity by size and strain for applications of thermal management and thermoelectricity., Comment: 6 pages, 8 figures

Published
2017
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17. Resonant electron-phonon-electron interaction

Author

Liu, Jiang-Tao

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The effect of the resonance of electron scattering energy difference and phonon energy on the electron-phonon-electron interaction (EPEI) is studied. Results show that the resonance of electron transition energy and phonon energy can enhance EPEI by a magnitude of 1 to 2. Moreover, the anisotropic S-wave electron or dx2-y2 electron can enhance resonance EPEI, and the self-energy correction of the electron will weaken resonance EPEI. Particularly, the asymmetrical spin-flip scattering process in k space can reduce the effect of electronic self-energy to enhance resonance EPEI, Comment: 11 pages, 5 figs

Published
2016

18. Enhanced circular photogalvanic effect in HgTe quantum wells in the heavily inverted regime

Author

Li, Jun, Yang, Wen, Liu, Jiang-Tao, Huang, Wei, Li, Cheng, and Chen, Song-Yan

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Thanks to the strong spin-orbit interaction (SOI), HgTe-based quantum wells (QWs) exhibit very rich spin-related properties. But the full descriptions of them are beyond the simple parabolic band models and conventional Rashba and Dresselhaus SOI terms, as a result of the strong interband coupling of the narrow gap band structures. Here, we develop a theoretical method to calculate the circular photogalvanic effect (CPGE) in Hg$_{0.3}$Cd$_{0.7}$Te/HgTe/Hg$_{0.3}$Cd$_{0.7}$Te quantum wells (HgTe QWs) based on the realistic eight-band $\mathbf{k}\cdot\mathbf{p}$ model with density matrix formalism. Our method could take account of the unusual band structures and SOIs of HgTe QWs, therefore can be used to calculate the CPGE currents in HgTe QWs with non-parabolic, Dirac-like and inverted energy dispersions. The microscopic origin of CPGE and the interplay effect of structure inversion asymmetry (SIA) and bulk inversion asymmetry (BIA) is also investigated. In addition, this method is extended to study the pure spin currents (PSCs) in HgTe QWs injected by linearly polarized light at normal incidence. Our calculation results support the following findings: (i) In the inverted phase regime, the energy dispersion of heavily inverted HgTe QWs could be strongly distorted, lead to a significant enhancement of CPGE at a certain range of energy spectrum. (ii) The interplay of SIA and BIA could lead to the CPGE currents anisotropically dependent on the azimuth angle of oblique incident light. (iii) The PSC $j_{y'}^{x'}$ ($x'\parallel[110]$ and $y'\parallel[\bar{1}10]$) produced by [110]-linearly-polarized light could change sign with HgTe QW transformed from normal phase to inverted phase. These findings might be utilized in developing the HgTe-based infrared/terahertz optoelectronic and spintronic devices.

Published
2016
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21. Broadband perfect light trapping in the thinnest monolayer graphene-MoS$_{2}$ photovoltaic cell

Author

Wu, Yun-Beng, Yang, Weng, Wang, Tong-Biao, Deng, Xin-Hua, and Liu, Jiang-Tao

Subjects
Physics - Optics
Abstract

The light absorption of a monolayer graphene-molybdenum disulfide photovoltaic (GM-PV) cell in a wedge-shaped microcavity with a spectrum-splitting structure is investigated theoretically. The GM-PV cell, which is three times thinner than the traditional photovoltaic cell, exhibits up to 98\% light absorptivity in a wide wavelength range. This rate exceeds the fundamental limit of nanophotonic light trapping in solar cells. The effects of defect layer thickness, GM-PV cell position in the microcavity, incident angle, and lens aberration on the light absorption rate of the GM-PV cell is explored. Regardless of errors, the GM-PV cell can still achieve at least 90\% light absorptivity with the current technology. Our proposal provides different methods to design light-trapping structures and apply spectrum-splitting systems., Comment: 19 pages, 3 figures

Published
2015

22. Broadband ultra-high transmission of terahertz radiation through monolayer MoS$_{2}$

Author

Deng, Xue-Yong, Deng, Xin-Hua, Su, Fu-Hai, Liu, Nian-Hua, and Liu, Jiang-Tao

Subjects
Physics - Optics, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

In this study, terahertz (THz) absorption and transmission of monolayer MoS$_{2}$ was calculated under different carrier concentrations. Results showed that the THz absorption of monolayer MoS$_{2}$ is very small even under high carrier concentrations and large incident angle. Equivalent loss of the THz absorption is the total sum of reflection and absorption that is one to three grades lower than that of graphene. The monolayer MoS$_{2}$ transmission is much larger than that of the traditional GaAs and InAs two-dimensional electron gas. The field-effect tubular structure formed by the monolayer MoS$_{2}$-insulation-layer-graphene is investigated. In this structure the THz absorption of graphene to reach saturation under low voltage. Meantime, the maximum THz absorption of monolayer MoS$_{2}$ was limited to approximately 5\%. Thus, monolayer MoS$_{2}$ is a kind of ideal THz Transparent Electrodes., Comment: 16 pages, 5 figures

Published
2015
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23. Development of soil conditioner from co-granulation of waste material with limestone powder in a high shear mixer

Author

Liu, Jiang Tao

Subjects
668
Abstract

The main aim of this research was to investigate the feasibility of producing an organic fertiliser using waste materials and limestone powder as the raw materials using the process of high shear granulation. The waste materials are anaerobic digest tea waste and sodium-based lignosulfonate. Successful production of improved soil conditioner would reduce the amount of synthetic fertiliser for farm application. It would also provide a sustainable way of managing waste. Two factorial experimental design was used to determine the effect of process and formulation variables on the strength, size distribution, resistance to attrition yield of the granules and nutrient homogeneity of the granules. Additional understanding of the granulation process in the high shear mixer involving binary powder mixes with different physical characteristics was provided.

Published
2016

25. An optimized short‐term steroid therapy for chronic drug‐induced liver injury: A prospective randomized clinical trial

Author

Huang, Ang, primary, Zhu, Yun, additional, Liu, Shuhong, additional, Sun, Ying, additional, Liu, Zherui, additional, Liang, Qing‐sheng, additional, Zhao, Jun, additional, Chang, Bin‐xia, additional, Bi, Jing‐feng, additional, Liu, Jiang‐tao, additional, Zhai, Xing‐ran, additional, Xie, Huan, additional, Li, Ning, additional, Tian, Hui, additional, Han, Lin, additional, Zhuang, Yingjie, additional, Ma, Hongbin, additional, Teng, Guang‐ju, additional, Zhang, Wei, additional, Aithal, Guruprasad P., additional, Ji, Dong, additional, Zhao, Jingmin, additional, and Zou, Zhengsheng, additional

Published
2024
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27. Control of absorption of monolayer MoS$_{2}$ thin-film transistor in one-dimensional defective photonic crystal

Author

Yang, Fang-Fang, Huang, Ying-Long, Xiao, Wen-bo, Liu, Jiang-Tao, and Liu, Nian-Hua

Subjects
Physics - Optics, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The light absorption and transmission of monolayer MoS$_{2}$ in a one-dimensional defective photonic crystal (d-1DPC) is theoretically investigated. The study shows that the strong interference effect decreases photon density in particular areas of the microcavity. The d-1DPC can reduce light absorption of monolayer MoS$_{2}$ and enhance light transmission. The impact of monolayer MoS$_{2}$ light absorption on the localization effect of photon is investigated when monolayer MoS$_{2}$ and the organic light-emitting diode are located in the same microcavity. However, monolayer MoS$_{2}$ does not reduce the localization effect of light by regulating the position of monolayer MoS$_{2}$ in the microcavity., Comment: 5pages,5figures

Published
2014
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28. Perfect light trapping in nanoscale thickness semiconductor films with resonant back reflector and spectrum-splitting structures

Author

Liu, Jiang-Tao, Deng, Xin-Hua, Yang, Wen, and Li, Jun

Subjects
Physics - Optics
Abstract

The optical absorption of nanoscale thickness semiconductor films on top of light-trapping structures based on optical interference effects combined with spectrum-splitting structures is theoretically investigated. Nearly perfect absorption over a broad spectrum range can be achieved in $<100$ nm thick films on top of one-dimensional photonic crystal or metal films. This phenomenon can be attributed to interference induced photonic localization, which enhances the absorption and reduces the reflection of the films. Perfect solar absorption and low carrier thermalization loss can be achieved when the light-trapping structures with wedge-shaped spacer layer or semiconductor films are combined with spectrum-splitting structures., Comment: 6pages,5 figures

Published
2014
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29. Enhanced absorption of monolayer MoS2 with resonant back reflector

Author

Liu, Jiang-Tao, Wang, Tong-Biao, Li, Xiao-Jing, and Liu, Nian-Hua

Subjects
Physics - Optics, Condensed Matter - Materials Science
Abstract

By extracting the permittivity of monolayer MoS2 from experiments, the optical absorption of monolayer MoS2 prepared on top of one-dimensional photonic crystal (1DPC) or metal films is investigated theoretically. The 1DPC and metal films act as resonant back reflectors that can enhance absorption of monolayer MoS2 substantially over a broad spectral range due to the Fabry-Perot cavity effect. The absorption of monolayer MoS2 can also be tuned by varying either the distance between the monolayer MoS2 and the back reflector or the thickness of the cover layers., Comment: 4 pages, 3 figures

Published
2014
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30. Gate-tunable nearly total terahertz absorption in graphene with resonant metal back reflector

Author

Liu, Jiang-Tao, Liu, Nian-Hua, Wang, Li, Deng, Xin-Hua, and Su, Fu-Hai

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The gate-tunable terahertz (THz) absorption of graphene layers with a resonant metal back reflector (RMBF) is theoretically investigated. We demonstrate that the THz absorption of graphene with RMBF can vary from nearly negligible to nearly total by tuning the external gate voltage. This peculiar nearly total THz absorption can be attributed to the Fabry-Perot cavity effect, which enhances the absorption and reduces the reflection of graphene. The absorption spectra of the graphene-RMBF structure can also be tailored in bandwidth and center frequency by changing the thickness and dielectric constant of the spacer layer., Comment: 3 figures

Published
2013
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31. On-board GRB trigger algorithms of SVOM-GRM

Author

Zhao, Dong-Hua, Wu, Bo-Bing, Song, Li-Ming, Dong, Yong-Wei, Schanne, Stephane, Cordier, Bertrand, and Liu, Jiang-Tao

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - High Energy Astrophysical Phenomena, Physics - Instrumentation and Detectors
Abstract

GRM (Gamma-Ray Monitor) is the high energy detector on-board the future Chinese-French satellite SVOM (Space-based multi-band astronomical Variable Object Monitor) which is dedicated to Gamma-Ray Burst (GRB) studies. This paper presents the investigation of the on-board counting rate trigger algorithms of GRM. The trigger threshold and trigger efficiency based on the given GRB sample are calculated with the algorithms. The trigger characteristics of GRM and ECLAIRs are also analyzed. In addition, the impact of solar flares on GRM is estimated, and the method to distinguish solar flares from GRBs is investigated.

Published
2013
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34. Group delay of electromagnetic pulses through multilayer dielectric mirrors beyond special relativity

Author

Liu, Jiang-Tao, Xin, Wu, Liu, Nian-Hua, Li, Jun, and Su, Fu-Hai

Subjects
Physics - Optics, General Relativity and Quantum Cosmology
Abstract

In this Letter, we investigate the group delay of optical pulses through multilayer dielectric mirrors (MDM) combined with gravitational wave (GW). We find that the delay increases linearly with MDM length for the transmitted wave packet, whereas the Hartman effect disappears. Our study provides insight into the nature of both quantum tunnelling and GW., Comment: 12 pages, 2 figures

Published
2012
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35. The momentum-resolved and time-resolved two-color optical coherence absorption spectrum in the scattering process

Author

Liu, Jiang-Tao, Su, Fu-Hai, Deng, Xin-Hua, and Wang, Hai

Subjects
Physics - Optics, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The two-color optical coherence absorption spectrum (QUIC-AB) of GaAs quantum well in the presence of a charge current is investigated. We find that the QUIC-AB depends strongly not only on the amplitude of the electron current but also on the direction of the electron current. Thus, the amplitude and the angular distribution of scattering current in the scatter process can be detected directly in real time with the QUIC-AB. The phase shift of scattered waves and the details of the scattering potential can also be determined., Comment: 5page 3figures

Published
2011
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36. Effects of optical fields on the tunneling time of chiral electrons in graphene

Author

Liu, Jiang-Tao, Su, Fu-Hai, Wang, Hai, and Deng, Xin-Hua

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Other Condensed Matter
Abstract

The influences of optical fields on the tunneling time in graphene are investigated in real time using the finite-difference time-domain method. The tunneling time of electrons irradiated by an optical field is significantly different from that observed in traditional quantum tunneling. We found that when the barrier width increases, the group delay becomes constant for the reflected wave packet, but increases linearly for the transmitted wave packet. This peculiar tunneling effect can be attributed to current leakage in a time-dependent barrier generated via the optical Stark effect., Comment: 4 pages, 3 figures

Published
2010
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37. The influence of the optical Stark effect on chiral tunneling in graphene

Author

Liu, Jiang-Tao, Su, Fu-Hai, Wang, Hai, and Deng, Xin-Hua

Subjects
Condensed Matter - Other Condensed Matter
Abstract

The influences of intense coherent laser fields on the transport properties of a single layer graphene are investigated by using the finite-difference time-domain method. Under an intense laser field, the valence band and conduction band states mix via the optical Stark effect. The chiral symmetry of Dirac electrons is broken and the perfect chiral tunneling is strongly suppressed., Comment: 4 pages,3 figures

Published
2010
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38. Direct optical detection of pure spin current in semiconductors

Author

Liu, Jiang-Tao and Chang, Kai

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Other Condensed Matter
Abstract

We suggest a new practical scheme for the direct detection of pure spin current by using the two-color Faraday rotation of optical quantum interference process (QUIP) in a semiconductor system. We demonstrate theoretically that the Faraday rotation of QUIP depends sensitively on the spin orientation and wave vector of the carriers, and can be tuned by the relative phase and the polarization direction of the $\omega$ and $2\omega$ laser beams. By adjusting these parameters, the magnitude and direction of the spin current can be detected., Comment: 4 pages, 3 figures

Published
2007
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45. In-orbit background simulation study of SVOM/GRM

Author

He, Jiang, Sun, Jian-Chao, Wen, Xing, Dong, Yong-Wei, Zhang, Juan, Li, Lu, Liu, Jiang-Tao, Liu, Shuang, Liu, Xin, Liu, Yang, Shi, Hao-Li, Wu, Bo-Bing, Wang, Ling-Jun, Wang, Rui-Jie, Zhang, Li, Zhang, Shuang-Nan, Zhang, Wen-Qiao, and Zhao, Yan-Yan

Published
2020
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46. Feedback control problems for a class of backward Riemann-Liouville fractional evolution hemivariational inequalities with dual operators.

Author

Liu, Jiang-tao, Hu, Fan, and Jiang, Yi-rong

Subjects
LAGRANGE problem, DUALITY theory (Mathematics), HILBERT space, EVOLUTION equations
Abstract

In this paper, we investigate a class of backward Riemann-Liouville fractional evolution hemivariational inequalities with dual operators. By using the duality theory on semigroup, resolvent technique, the Cesari property and Schauder's fixed point theorem, we obtain the existence of feasible pairs. Then we prove the existence of optimal feedback control pairs for the Lagrange problem. Finally, we give an example in a Hilbert space to illustrate the results. [ABSTRACT FROM AUTHOR]

Published
2024
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