Your search keyword '"Xiang FU"' showing total 21 results

1. Studying the properties of compressible MHD turbulence by synchrotron fluctuation statistics

Author

Wang, Ru-Yue, Zhang, Jian-Fu, Lazarian, Alex, Xiao, Hua-Ping, Xiang, Fu-Yuan, Wang, Ru-Yue, Zhang, Jian-Fu, Lazarian, Alex, Xiao, Hua-Ping, and Xiang, Fu-Yuan

Abstract

We study the observable properties of compressible MHD turbulence covering different turbulence regimes, based on synthetic synchrotron observations arising from 3D MHD numerical simulations. Using the synchrotron emissivity and intensity, we first explore how the cosmic ray spectral indices affect the measurements of turbulence properties by employing normalized correlation functions. We then study how the anisotropy of synchrotron total and polarization intensities arising from three fundamental MHD modes vary with the viewing angle, i.e., the angle between the mean magnetic field and the line of sight. We employ the ratio of quadrupole moment to the monopole one (QM) for this purpose. Our numerical results demonstrate that: (1) the two-point correlation function of synchrotron statistics for the arbitrary cosmic ray spectral index is related to the special case of magnetic field index $\gamma=2$ in agreement with the analytical formulae provided by Lazarian \& Pogosyan (2012); (2) the anisotropy of synchrotron total and polarization intensities arising from Alfv\'en and slow modes increases with the increase of the viewing angle, while that of fast mode remains almost unchanged with the viewing angle; (3) the analytical formulae of synchrotron intensities for studying turbulence can be applied to describing statistics of polarization intensities, and the QM can be successfully used to recover turbulence anisotropy. This study validates Lazarian \& Pogosyan's analytical approach and opens a way to study turbulence from observations., Comment: Accepted by ApJ. 15 pages, 9 figures and 1 Table

Published

2022

2. The harmonic component of the millihertz quasi-periodic oscillations in 4U 1636-53

Author

Fei, Zhenyan, Lyu, Ming, Mendez, Mariano, Altamirano, D., Zhang, Guobao, Mancuso, G. C., Xiang, Fu-Yuan, Yang, X. J., Fei, Zhenyan, Lyu, Ming, Mendez, Mariano, Altamirano, D., Zhang, Guobao, Mancuso, G. C., Xiang, Fu-Yuan, and Yang, X. J.

Abstract

We studied the harmonics of the millihertz quasi-periodic oscillations (mHz QPOs) in the neutron-star low-mass X-ray binary 4U 1636-53 using the Rossi X-ray Timing Explorer observations. We detected the harmonics of the mHz QPOs in 73 data intervals, with most of them in the transitional spectra state. We found that the ratio between the rms amplitude of the harmonic and that of the fundamental remains constant in a wide range of the fundamental frequency. More importantly, we studied, for the first time, the rms amplitude of the harmonics vs. energy in 4U 1636-53 in the 2-5 keV range. We found that the rms amplitude of both the harmonic and the fundamental shows a decreasing trend as the energy increases, which is different from the behaviors reported in QPOs in certain black hole systems. Furthermore, our results suggest that not all observations with mHz QPOs have the harmonic component, although the reason behind this is still unclear., Comment: 17 pages, 10 figures, accepted by ApJ

Published

2021

3. Gradient measurement of synchrotron polarization diagnostic: Application to spatially separated emission and Faraday rotation regions

Author

Wang, Ru-Yue, Zhang, Jian-Fu, Lazarian, Alex, Xiao, Hua-Ping, Xiang, Fu-Yuan, Wang, Ru-Yue, Zhang, Jian-Fu, Lazarian, Alex, Xiao, Hua-Ping, and Xiang, Fu-Yuan

Abstract

Considering the spatially separated polarization radiation and Faraday rotation regions to simulate complex interstellar media, we study synchrotron polarization gradient techniques' measurement capabilities. We explore how to trace the direction of projected magnetic field of emitting-source region at the multi-frequency bands, using the gradient technique compared with the traditional polarization vector method. Furthermore, we study how Faraday rotation density in the foreground region, i.e., a product of electron number density and parallel component of magnetic fields along the line of sight, affects the measurement of projected magnetic field. Numerical results show that synchrotron polarization gradient technique could successfully trace projected magnetic field within emitting-source region independent of radio frequency. Accordingly, the gradient technique can measure the magnetic field properties for a complex astrophysical environment., Comment: 12 pages, 13 figures, Accepted by MNRAS

Published

2021

4. The harmonic component of the millihertz quasi-periodic oscillations in 4U 1636-53

Author

Fei, Zhenyan, Lyu, Ming, Mendez, Mariano, Altamirano, D., Zhang, Guobao, Mancuso, G. C., Xiang, Fu-Yuan, Yang, X. J., Fei, Zhenyan, Lyu, Ming, Mendez, Mariano, Altamirano, D., Zhang, Guobao, Mancuso, G. C., Xiang, Fu-Yuan, and Yang, X. J.

Abstract

We studied the harmonics of the millihertz quasi-periodic oscillations (mHz QPOs) in the neutron-star low-mass X-ray binary 4U 1636-53 using the Rossi X-ray Timing Explorer observations. We detected the harmonics of the mHz QPOs in 73 data intervals, with most of them in the transitional spectra state. We found that the ratio between the rms amplitude of the harmonic and that of the fundamental remains constant in a wide range of the fundamental frequency. More importantly, we studied, for the first time, the rms amplitude of the harmonics vs. energy in 4U 1636-53 in the 2-5 keV range. We found that the rms amplitude of both the harmonic and the fundamental shows a decreasing trend as the energy increases, which is different from the behaviors reported in QPOs in certain black hole systems. Furthermore, our results suggest that not all observations with mHz QPOs have the harmonic component, although the reason behind this is still unclear., Comment: 17 pages, 10 figures, accepted by ApJ

Published

2021

5. Gradient measurement of synchrotron polarization diagnostic: Application to spatially separated emission and Faraday rotation regions

Author

Wang, Ru-Yue, Zhang, Jian-Fu, Lazarian, Alex, Xiao, Hua-Ping, Xiang, Fu-Yuan, Wang, Ru-Yue, Zhang, Jian-Fu, Lazarian, Alex, Xiao, Hua-Ping, and Xiang, Fu-Yuan

Abstract

Considering the spatially separated polarization radiation and Faraday rotation regions to simulate complex interstellar media, we study synchrotron polarization gradient techniques' measurement capabilities. We explore how to trace the direction of projected magnetic field of emitting-source region at the multi-frequency bands, using the gradient technique compared with the traditional polarization vector method. Furthermore, we study how Faraday rotation density in the foreground region, i.e., a product of electron number density and parallel component of magnetic fields along the line of sight, affects the measurement of projected magnetic field. Numerical results show that synchrotron polarization gradient technique could successfully trace projected magnetic field within emitting-source region independent of radio frequency. Accordingly, the gradient technique can measure the magnetic field properties for a complex astrophysical environment., Comment: 12 pages, 13 figures, Accepted by MNRAS

Published

2021

6. XMM-Newton and NICER measurement of the rms spectrum of the millihertz quasi-periodic oscillations in the neutron-star low-mass X-ray binary 4U 1636-53

Author

Lyu, Ming, Zhang, Guobao, Mendez, Mariano, Altamirano, D., Mancuso, G. C., Xiang, Fu-Yuan, Xiao, Huaping, Lyu, Ming, Zhang, Guobao, Mendez, Mariano, Altamirano, D., Mancuso, G. C., Xiang, Fu-Yuan, and Xiao, Huaping

Abstract

We used two XMM-Newton and six Neutron Star Interior Composition Explorer (NICER) observations to investigate the fractional rms amplitude of the millihertz quasi-periodic oscillations (mHz QPOs) in the neutron-star low-mass X-ray binary 4U 1636-53. We studied, for the first time, the fractional rms amplitude of the mHz QPOs vs. energy in 4U 1636-53 down to 0.2 keV. We find that, as the energy increases from 0.2 keV to 3 keV, the rms amplitude of the mHz QPOs increases, different from the decreasing trend that has been previously observed above 3 keV. This finding has not yet been predicted by any current theoretical model, however, it provides an important observational feature to speculate whether a newly discovered mHz oscillation originates from the marginally stable nuclear burning process on the neutron star surface., Comment: Published in ApJ, 10 pages, 5 figures

Published

2020

7. Studying Anisotropy of Compressible Magnetohydrodynamic Turbulence by Synchrotron Polarization Intensity

Author

Wang, Ru-Yue, Zhang, Jian-Fu, Xiang, Fu-Yuan, Wang, Ru-Yue, Zhang, Jian-Fu, and Xiang, Fu-Yuan

Abstract

Based on statistical analysis of synchrotron polarization intensity, we study the anisotropic properties of compressible magnetohydrodynamic (MHD) turbulence. The second-order normalized structure function, quadrupole ratio modulus and anisotropic coefficient are synergistically used to characterize the anisotropy of the polarization intensity. On the basis of pre-decomposition data cubes, we first explore the anisotropy of the polarization intensity in different turbulence regimes and find that the most significant anisotropy occurs in the sub-Alfv\'enic regime. Using post-decomposition data cubes in this regime, we then study the anisotropy of the polarization intensity from Alfv\'en, slow and fast modes. Statistics of polarization intensity from Alfv\'en and slow modes demonstrate the significant anisotropy while statistics of polarization intensity from fast modes show isotropic structures, which is consistent with the earlier results provided in Cho & Lazarian (2002). As a result, both quadrupole ratio modulus and anisotropic coefficient for polarization intensities can quantitatively recover the anisotropy of underlying compressible MHD turbulence. The synergistic use of the two methods helps enhance the reliability of the magnetic field measurement., Comment: 13 pages with 12 Figures and 1 Table. Accepted by ApJ

Published

2020

8. XMM-Newton and NICER measurement of the rms spectrum of the millihertz quasi-periodic oscillations in the neutron-star low-mass X-ray binary 4U 1636-53

Author

Lyu, Ming, Zhang, Guobao, Mendez, Mariano, Altamirano, D., Mancuso, G. C., Xiang, Fu-Yuan, Xiao, Huaping, Lyu, Ming, Zhang, Guobao, Mendez, Mariano, Altamirano, D., Mancuso, G. C., Xiang, Fu-Yuan, and Xiao, Huaping

Abstract

We used two XMM-Newton and six Neutron Star Interior Composition Explorer (NICER) observations to investigate the fractional rms amplitude of the millihertz quasi-periodic oscillations (mHz QPOs) in the neutron-star low-mass X-ray binary 4U 1636-53. We studied, for the first time, the fractional rms amplitude of the mHz QPOs vs. energy in 4U 1636-53 down to 0.2 keV. We find that, as the energy increases from 0.2 keV to 3 keV, the rms amplitude of the mHz QPOs increases, different from the decreasing trend that has been previously observed above 3 keV. This finding has not yet been predicted by any current theoretical model, however, it provides an important observational feature to speculate whether a newly discovered mHz oscillation originates from the marginally stable nuclear burning process on the neutron star surface., Comment: Published in ApJ, 10 pages, 5 figures

Published

2020

9. Studying Anisotropy of Compressible Magnetohydrodynamic Turbulence by Synchrotron Polarization Intensity

Author

Wang, Ru-Yue, Zhang, Jian-Fu, Xiang, Fu-Yuan, Wang, Ru-Yue, Zhang, Jian-Fu, and Xiang, Fu-Yuan

Abstract

Based on statistical analysis of synchrotron polarization intensity, we study the anisotropic properties of compressible magnetohydrodynamic (MHD) turbulence. The second-order normalized structure function, quadrupole ratio modulus and anisotropic coefficient are synergistically used to characterize the anisotropy of the polarization intensity. On the basis of pre-decomposition data cubes, we first explore the anisotropy of the polarization intensity in different turbulence regimes and find that the most significant anisotropy occurs in the sub-Alfv\'enic regime. Using post-decomposition data cubes in this regime, we then study the anisotropy of the polarization intensity from Alfv\'en, slow and fast modes. Statistics of polarization intensity from Alfv\'en and slow modes demonstrate the significant anisotropy while statistics of polarization intensity from fast modes show isotropic structures, which is consistent with the earlier results provided in Cho & Lazarian (2002). As a result, both quadrupole ratio modulus and anisotropic coefficient for polarization intensities can quantitatively recover the anisotropy of underlying compressible MHD turbulence. The synergistic use of the two methods helps enhance the reliability of the magnetic field measurement., Comment: 13 pages with 12 Figures and 1 Table. Accepted by ApJ

Published

2020

10. Ionisation state of the accretion disc in the neutron-star low-mass X-ray binary 4U 1728-34

Author

Lyu, Ming, Mendez, Mariano, Zhang, Jian-Fu, Xiang, Fu-Yuan, Lyu, Ming, Mendez, Mariano, Zhang, Jian-Fu, and Xiang, Fu-Yuan

Abstract

We analysed an XMM-Newton plus a simultaneous Rossi X-ray Timing Explorer observation and a separate Suzaku observation of the neutron-star low-mass X-ray binary 4U 1728-34. We fitted the X-ray spectra with the self-consistent reflection model relxill. We found that the inclination angle of 4U 1728-34 is 49 degrees, consistent with the upper limit of 60 degrees deduced from the absence of eclipses or dips in this source. The inclination angle in the fit of the XMM-Newton/RXTE observation is larger than 85 degrees, which may be due to the possible calibration issues of the PN instrument in timing mode. We also found that the thermal emission from the accretion disc is not significant. This could be explained either by the relatively high column density of the interstellar medium along the line of sight to the source, which decreases the number of soft disc photons, or if most of the soft thermal photons from the disc are reprocessed in the corona. The ionisation parameter derived from the fits is larger than the value predicted in the framework of the standard reflection model, wherein the disc is irradiated by an X-ray source above the compact object. This inconsistency suggests that irradiation from the neutron star and its boundary layer may play an important role in the ionisation of the accretion disc, and hence in the reflection component in this source., Comment: 11 pages, 3 figures, accepted by MNRAS for publication

Published

2019

11. Ionisation state of the accretion disc in the neutron-star low-mass X-ray binary 4U 1728-34

Author

Lyu, Ming, Mendez, Mariano, Zhang, Jian-Fu, Xiang, Fu-Yuan, Lyu, Ming, Mendez, Mariano, Zhang, Jian-Fu, and Xiang, Fu-Yuan

Abstract

We analysed an XMM-Newton plus a simultaneous Rossi X-ray Timing Explorer observation and a separate Suzaku observation of the neutron-star low-mass X-ray binary 4U 1728-34. We fitted the X-ray spectra with the self-consistent reflection model relxill. We found that the inclination angle of 4U 1728-34 is 49 degrees, consistent with the upper limit of 60 degrees deduced from the absence of eclipses or dips in this source. The inclination angle in the fit of the XMM-Newton/RXTE observation is larger than 85 degrees, which may be due to the possible calibration issues of the PN instrument in timing mode. We also found that the thermal emission from the accretion disc is not significant. This could be explained either by the relatively high column density of the interstellar medium along the line of sight to the source, which decreases the number of soft disc photons, or if most of the soft thermal photons from the disc are reprocessed in the corona. The ionisation parameter derived from the fits is larger than the value predicted in the framework of the standard reflection model, wherein the disc is irradiated by an X-ray source above the compact object. This inconsistency suggests that irradiation from the neutron star and its boundary layer may play an important role in the ionisation of the accretion disc, and hence in the reflection component in this source., Comment: 11 pages, 3 figures, accepted by MNRAS for publication

Published

2019

12. GPR68 Senses Flow and Is Essential for Vascular Physiology.

Author

Xu, Jie, Xu, Jie, Mathur, Jayanti, Vessières, Emilie, Hammack, Scott, Nonomura, Keiko, Favre, Julie, Grimaud, Linda, Petrus, Matt, Francisco, Allain, Li, Jingyuan, Lee, Van, Xiang, Fu-Li, Mainquist, James K, Cahalan, Stuart M, Orth, Anthony P, Walker, John R, Ma, Shang, Lukacs, Viktor, Bordone, Laura, Bandell, Michael, Laffitte, Bryan, Xu, Yan, Chien, Shu, Henrion, Daniel, Patapoutian, Ardem, Xu, Jie, Xu, Jie, Mathur, Jayanti, Vessières, Emilie, Hammack, Scott, Nonomura, Keiko, Favre, Julie, Grimaud, Linda, Petrus, Matt, Francisco, Allain, Li, Jingyuan, Lee, Van, Xiang, Fu-Li, Mainquist, James K, Cahalan, Stuart M, Orth, Anthony P, Walker, John R, Ma, Shang, Lukacs, Viktor, Bordone, Laura, Bandell, Michael, Laffitte, Bryan, Xu, Yan, Chien, Shu, Henrion, Daniel, and Patapoutian, Ardem

Abstract

Mechanotransduction plays a crucial role in vascular biology. One example of this is the local regulation of vascular resistance via flow-mediated dilation (FMD). Impairment of this process is a hallmark of endothelial dysfunction and a precursor to a wide array of vascular diseases, such as hypertension and atherosclerosis. Yet the molecules responsible for sensing flow (shear stress) within endothelial cells remain largely unknown. We designed a 384-well screening system that applies shear stress on cultured cells. We identified a mechanosensitive cell line that exhibits shear stress-activated calcium transients, screened a focused RNAi library, and identified GPR68 as necessary and sufficient for shear stress responses. GPR68 is expressed in endothelial cells of small-diameter (resistance) arteries. Importantly, Gpr68-deficient mice display markedly impaired acute FMD and chronic flow-mediated outward remodeling in mesenteric arterioles. Therefore, GPR68 is an essential flow sensor in arteriolar endothelium and is a critical signaling component in cardiovascular pathophysiology.

Published

2018

13. Spectral properties of magnetohydrodnamic turbulence revealed by polarization synchrotron emission with Faraday rotation

Author

Zhang, Jian-Fu, Lazarian, Alex, Xiang, Fu-Yuan, Zhang, Jian-Fu, Lazarian, Alex, and Xiang, Fu-Yuan

Abstract

We investigate how to recover the spectral properties of underlying magnetohydrodynamic (MHD) turbulence using fluctuation statistics of synchrotron polarization radiation, based on the synthetic observations. Taking spatially coincident, separated, and compounded synchrotron emission and Faraday rotation regions into account, we extract the power spectrum of synchrotron polarization intensities integrated along the line of sight. Our results demonstrate that in the short wavelength range, the power spectra reflect fluctuation statistics of the perpendicular component of turbulent magnetic fields, and the spectra at long wavelengths reveal the fluctuation of the Faraday rotation density, which is a product of the parallel component of magnetic field and thermal electron density. We find that our numerical results (in the case of spatially coincident regions) are in agreement with the analytical prediction in Lazarian \& Pogosyan (2016), and this theoretical prediction is applicable to more complicated settings, i.e., the spatially separated and compounded regions. We simulate telescopic observations that incorporate the effects of telescope angular resolution and noise, and find that statistics of underlying MHD turbulence can be recovered successfully. We expect that the technique can be applied to a variety of astrophysical environments, with existing synchrotron data cubes and a large number of forthcoming data sets from such as the LOw-Frequency Array for Radio astronomy (LOFAR), the Square Kilometer Array (SKA) and the Five-hundred-meter Aperture Spherical radio Telescope (FAST)., Comment: 13 pages, 12 figures and 1 table. Accepted for publication in ApJ

Published

2018

14. GPR68 Senses Flow and Is Essential for Vascular Physiology.

Author

Xu, Jie, Xu, Jie, Mathur, Jayanti, Vessières, Emilie, Hammack, Scott, Nonomura, Keiko, Favre, Julie, Grimaud, Linda, Petrus, Matt, Francisco, Allain, Li, Jingyuan, Lee, Van, Xiang, Fu-Li, Mainquist, James K, Cahalan, Stuart M, Orth, Anthony P, Walker, John R, Ma, Shang, Lukacs, Viktor, Bordone, Laura, Bandell, Michael, Laffitte, Bryan, Xu, Yan, Chien, Shu, Henrion, Daniel, Patapoutian, Ardem, Xu, Jie, Xu, Jie, Mathur, Jayanti, Vessières, Emilie, Hammack, Scott, Nonomura, Keiko, Favre, Julie, Grimaud, Linda, Petrus, Matt, Francisco, Allain, Li, Jingyuan, Lee, Van, Xiang, Fu-Li, Mainquist, James K, Cahalan, Stuart M, Orth, Anthony P, Walker, John R, Ma, Shang, Lukacs, Viktor, Bordone, Laura, Bandell, Michael, Laffitte, Bryan, Xu, Yan, Chien, Shu, Henrion, Daniel, and Patapoutian, Ardem

Abstract

Mechanotransduction plays a crucial role in vascular biology. One example of this is the local regulation of vascular resistance via flow-mediated dilation (FMD). Impairment of this process is a hallmark of endothelial dysfunction and a precursor to a wide array of vascular diseases, such as hypertension and atherosclerosis. Yet the molecules responsible for sensing flow (shear stress) within endothelial cells remain largely unknown. We designed a 384-well screening system that applies shear stress on cultured cells. We identified a mechanosensitive cell line that exhibits shear stress-activated calcium transients, screened a focused RNAi library, and identified GPR68 as necessary and sufficient for shear stress responses. GPR68 is expressed in endothelial cells of small-diameter (resistance) arteries. Importantly, Gpr68-deficient mice display markedly impaired acute FMD and chronic flow-mediated outward remodeling in mesenteric arterioles. Therefore, GPR68 is an essential flow sensor in arteriolar endothelium and is a critical signaling component in cardiovascular pathophysiology.

Published

2018

15. Spectral properties of magnetohydrodnamic turbulence revealed by polarization synchrotron emission with Faraday rotation

Author

Zhang, Jian-Fu, Lazarian, Alex, Xiang, Fu-Yuan, Zhang, Jian-Fu, Lazarian, Alex, and Xiang, Fu-Yuan

Abstract

We investigate how to recover the spectral properties of underlying magnetohydrodynamic (MHD) turbulence using fluctuation statistics of synchrotron polarization radiation, based on the synthetic observations. Taking spatially coincident, separated, and compounded synchrotron emission and Faraday rotation regions into account, we extract the power spectrum of synchrotron polarization intensities integrated along the line of sight. Our results demonstrate that in the short wavelength range, the power spectra reflect fluctuation statistics of the perpendicular component of turbulent magnetic fields, and the spectra at long wavelengths reveal the fluctuation of the Faraday rotation density, which is a product of the parallel component of magnetic field and thermal electron density. We find that our numerical results (in the case of spatially coincident regions) are in agreement with the analytical prediction in Lazarian \& Pogosyan (2016), and this theoretical prediction is applicable to more complicated settings, i.e., the spatially separated and compounded regions. We simulate telescopic observations that incorporate the effects of telescope angular resolution and noise, and find that statistics of underlying MHD turbulence can be recovered successfully. We expect that the technique can be applied to a variety of astrophysical environments, with existing synchrotron data cubes and a large number of forthcoming data sets from such as the LOw-Frequency Array for Radio astronomy (LOFAR), the Square Kilometer Array (SKA) and the Five-hundred-meter Aperture Spherical radio Telescope (FAST)., Comment: 13 pages, 12 figures and 1 table. Accepted for publication in ApJ

Published

2018

16. Electron transport with re-acceleration and radiation in the jets of X-ray binaries

Author

Zhang, Jian-Fu, Li, Zhi-Ren, Xiang, Fu-Yuan, Lu, Ju-Fu, Zhang, Jian-Fu, Li, Zhi-Ren, Xiang, Fu-Yuan, and Lu, Ju-Fu

Abstract

This paper studies acceleration processes of background thermal electrons in X-ray binary jets via turbulent stochastic interactions and shock collisions. By considering turbulent magnetized jets mixed with fluctuation magnetic fields and ordered, large-scale one, and numerically solving the transport equation along the jet axis, we explore the influence of such as magnetic turbulence, electron injections, location of an acceleration region, and various cooling rates on acceleration efficiency. The results show that (1) the existence of the dominant turbulent magnetic fields in the jets is necessary to accelerate background thermal electrons to relativistic energies. (2) Acceleration rates of electrons depend on magnetohydrodynamic turbulence types, from which the turbulence type with a hard slope can accelerate electrons more effectively. (3) An effective acceleration region should be located at the distance $>10^3R_{\rm g}$ away from the central black hole ($R_{\rm g}$ being a gravitational radius). As a result of acceleration rates competing with various cooling rates, background thermal electrons obtain not only an increase in their energies but also their spectra are broadened beyond the given initial distribution to form a thermal-like distribution. (4) The acceleration mechanisms explored in this work can reasonably provide the electron maximum energy required for interpreting high-energy $\gamma$-ray observations from microquasars, but it needs to adopt some extreme parameters in order to predict a possible very high-energy $\gamma$-ray signal., Comment: 13 pages, 9 figures and 2 tables. Accepted for publication in Monthly Notices of the Royal Astronomical Society

Published

2017

17. Polarization radiation with turbulent magnetic fields from X-ray binaries

Author

Zhang, Jian-Fu, Xiang, Fu-Yuan, Lu, Ju-Fu, Zhang, Jian-Fu, Xiang, Fu-Yuan, and Lu, Ju-Fu

Abstract

We study the properties of polarized radiation in turbulent magnetic fields from X-ray binary jets. These turbulent magnetic fields are composed of large- and small-scale configurations, which result in the polarized jitter radiation when the characteristic length of turbulence is less than the non-relativistic Larmor radius. On the contrary, the polarized synchrotron emission occurs, corresponding to a large-scale turbulent environment. We calculate the spectral energy distributions and the degree of polarization for a general microquasar. Numerical results show that turbulent magnetic field configurations can indeed provide a high degree of polarization, which does not mean that a uniform, large-scale magnetic field structure exists. The model is applied to investigate the properties of polarized radiation of black hole X-ray binary Cygnus X--1. Under the constraint of multiband observations of this source, our studies demonstrate that the model can explain the high polarization degree at MeV tail and predict the highly polarized properties at high-energy $\gamma$-ray region, and that the dominant small-scale turbulent magnetic field plays an important role for explaining the highly polarized observation at hard X-ray/soft $\gamma$-ray bands. This model can be tested by polarization observations of upcoming polarimeters at high-energy $\gamma$-ray bands., Comment: Accepted by ApJ. 12 pages, 6 figures and 1 table

Published

2017

18. Electron transport with re-acceleration and radiation in the jets of X-ray binaries

Author

Zhang, Jian-Fu, Li, Zhi-Ren, Xiang, Fu-Yuan, Lu, Ju-Fu, Zhang, Jian-Fu, Li, Zhi-Ren, Xiang, Fu-Yuan, and Lu, Ju-Fu

Abstract

This paper studies acceleration processes of background thermal electrons in X-ray binary jets via turbulent stochastic interactions and shock collisions. By considering turbulent magnetized jets mixed with fluctuation magnetic fields and ordered, large-scale one, and numerically solving the transport equation along the jet axis, we explore the influence of such as magnetic turbulence, electron injections, location of an acceleration region, and various cooling rates on acceleration efficiency. The results show that (1) the existence of the dominant turbulent magnetic fields in the jets is necessary to accelerate background thermal electrons to relativistic energies. (2) Acceleration rates of electrons depend on magnetohydrodynamic turbulence types, from which the turbulence type with a hard slope can accelerate electrons more effectively. (3) An effective acceleration region should be located at the distance $>10^3R_{\rm g}$ away from the central black hole ($R_{\rm g}$ being a gravitational radius). As a result of acceleration rates competing with various cooling rates, background thermal electrons obtain not only an increase in their energies but also their spectra are broadened beyond the given initial distribution to form a thermal-like distribution. (4) The acceleration mechanisms explored in this work can reasonably provide the electron maximum energy required for interpreting high-energy $\gamma$-ray observations from microquasars, but it needs to adopt some extreme parameters in order to predict a possible very high-energy $\gamma$-ray signal., Comment: 13 pages, 9 figures and 2 tables. Accepted for publication in Monthly Notices of the Royal Astronomical Society

Published

2017

19. Polarization radiation with turbulent magnetic fields from X-ray binaries

Author

Zhang, Jian-Fu, Xiang, Fu-Yuan, Lu, Ju-Fu, Zhang, Jian-Fu, Xiang, Fu-Yuan, and Lu, Ju-Fu

Abstract

We study the properties of polarized radiation in turbulent magnetic fields from X-ray binary jets. These turbulent magnetic fields are composed of large- and small-scale configurations, which result in the polarized jitter radiation when the characteristic length of turbulence is less than the non-relativistic Larmor radius. On the contrary, the polarized synchrotron emission occurs, corresponding to a large-scale turbulent environment. We calculate the spectral energy distributions and the degree of polarization for a general microquasar. Numerical results show that turbulent magnetic field configurations can indeed provide a high degree of polarization, which does not mean that a uniform, large-scale magnetic field structure exists. The model is applied to investigate the properties of polarized radiation of black hole X-ray binary Cygnus X--1. Under the constraint of multiband observations of this source, our studies demonstrate that the model can explain the high polarization degree at MeV tail and predict the highly polarized properties at high-energy $\gamma$-ray region, and that the dominant small-scale turbulent magnetic field plays an important role for explaining the highly polarized observation at hard X-ray/soft $\gamma$-ray bands. This model can be tested by polarization observations of upcoming polarimeters at high-energy $\gamma$-ray bands., Comment: Accepted by ApJ. 12 pages, 6 figures and 1 table

Published

2017

20. The aqueous-phase synthesis of sulfonylthioureas and a study of their properties as anion receptors

Author

Cong-Wen Ding, Cong-Wen Ding, Hai-Feng Yu, Rui-Min Li, Xiang-Fu Jiang, Bin Luo, Cong-Wen Ding, Cong-Wen Ding, Hai-Feng Yu, Rui-Min Li, Xiang-Fu Jiang, and Bin Luo

Abstract

ARKIVOC: vol. 2012, no. 9, (issn) 1551-7012, (dlps) 5550190.0013.922, This work is licensed under a Creative Commons Attribution-NonCommercial 3.0 License. Please contact mpub-help@umich.edu to use this work in a way not covered by the license.

Published

2012

21. Research on drag reduction mechanism of vibratory excavation of the ocean cobalt-rich crusts.

Author

Zhu Jian-Xin, Luo Wei, Zou Xiang-Fu., Zhu Jian-Xin, Luo Wei, and Zou Xiang-Fu.

Abstract

The use is discussed of screw-drum-type vibration cutting for mining oceanic cobalt-rich crusts, and the results are presented of a theoretical analysis of the drag reduction mechanism of vibration cutting. The impulse caused by vibration results in rapid expansion of the cracks and breakage of the crust at vibration frequencies within a certain range. The application of vibration impulses greatly reduces the resistance of the screw drum, reduces the load fluctuation and controls the granularity of the crust to within a certain range., The use is discussed of screw-drum-type vibration cutting for mining oceanic cobalt-rich crusts, and the results are presented of a theoretical analysis of the drag reduction mechanism of vibration cutting. The impulse caused by vibration results in rapid expansion of the cracks and breakage of the crust at vibration frequencies within a certain range. The application of vibration impulses greatly reduces the resistance of the screw drum, reduces the load fluctuation and controls the granularity of the crust to within a certain range.