Your search keyword '"Xiao, Shuo"' showing total 10 results

1. The Peculiar Precursor of a Gamma-Ray Burst from a Binary Merger Involving a Magnetar.

Author

Xiao, Shuo, Zhang, Yan-Qiu, Zhu, Zi-Pei, Xiong, Shao-Lin, Gao, He, Xu, Dong, Zhang, Shuang-Nan, Peng, Wen-Xi, Li, Xiao-Bo, Zhang, Peng, Lu, Fang-Jun, Lin, Lin, Liu, Liang-Duan, Zhang, Zhen, Ge, Ming-Yu, Tuo, You-Li, Xue, Wang-Chen, Fu, Shao-Yu, Liu, Xing, and Liu, Jin-Zhong

Subjects

*MAGNETARS, *MERGERS & acquisitions, *GAMMA ray bursts, *BINARY stars, *GRAVITATIONAL waves, *BLACK holes, *NEUTRON stars

Abstract

The milestone discovery of GW170817-GRB 170817A-AT 2017gfo has shown that gravitational waves (GWs) could be produced during the merger of a neutron star–neutron star/black hole and that in electromagnetic (EM) waves, a gamma-ray burst (GRB) and a kilonova (KN) are generated in sequence after the merger. Observationally, however, EM properties before the merger phase are still unclear. Here we report a peculiar precursor in a KN-associated long-duration GRB 211211A, providing evidence of the EM before the merger. This precursor lasts ∼0.2 s, and the waiting time between the precursor and the main burst is ∼1 s, comparable to that between GW170817 and GRB 170817A. The spectrum of the precursor could be well fit with a nonthermal cutoff power-law model instead of a blackbody. In particular, a ∼22 Hz quasiperiodic oscillation candidate (∼3 σ) is detected in the precursor. These temporal and spectral properties indicate that this precursor is probably produced by a catastrophic flare accompanied with magnetoelastic or crustal oscillations of a magnetar in a binary compact merger. The strong magnetic field of the magnetar can also account for the prolonged duration of GRB 211211A. However, it poses a challenge to reconcile the rather short lifetime of a magnetar with the rather long spiraling time of a binary neutron star system only by the GW radiation before the merger. [ABSTRACT FROM AUTHOR]

Published

2024

2. Individual and averaged power density spectra of X-ray bursts from SGR J1935+2154: quasi-periodic oscillation search and slopes.

Author

Xiao, Shuo, Li, Xiao-Bo, Xue, Wang-Chen, Xiong, Shao-Lin, Zhang, Shuang-Nan, Peng, Wen-Xi, Dong, Ai-Jun, Tuo, You-Li, Cai, Ce, Luo, Xi-Hong, Yang, Jiao-Jiao, Wang, Yue, Zheng, Chao, Zhang, Yan-Qiu, Liu, Jia-Cong, Tan, Wen-Jun, Wang, Chen-Wei, Wang, Ping, Li, Cheng-Kui, and Yi, Shu-Xu

Subjects

*X-ray bursts, *POWER density, *POWER spectra, *X-ray spectra, *GAMMA ray bursts, *ASTEROSEISMOLOGY, *MAGNETARS

Abstract

The study of quasi-periodic oscillations (QPOs) and power density spectra (PDSs) continuum properties can help shed light on the still elusive emission physics of magnetars and as a window into the interiors of neutron stars using asteroseismology. In this work, we employ a PDS method to search for the QPOs in the hundreds of X-ray bursts from SGR J1935+2154 observed by Insight - HXMT, GECAM , and Fermi/ GBM from 2014 July to 2022 January. Although no definitive QPO signal (significance >3 σ) is detected in individual bursts or the averaged periodogram of the bursts grouped by duration, we identify several bursts exhibiting features at ∼40 Hz, attributed to the the proximity intervals between adjacent pulses and consistent with that reported in the X-ray burst associated with FRB 200428. We investigate the PDS continuum properties and find that the distribution of the PDS slope in the simple power-law model peaks at ∼2.5, which is consistent with other magnetars but higher than 5/3 commonly seen in gamma-ray bursts. Besides, the distribution of the break frequency in the broken power-law model peaks at ∼60 Hz. Finally, we report that the power-law index of PDS has an anti-correlation and power-law dependence on the burst duration as well as the minimum variation time-scale. [ABSTRACT FROM AUTHOR]

Published

2024

3. Discovery of the linear energy dependence of the spectral lag of X-ray bursts from SGR J1935+2154.

Author

Xiao, Shuo, Tuo, You-Li, Zhang, Shuang-Nan, Xiong, Shao-Lin, Lin, Lin, Zhang, Yan-Qiu, Wang, Yue, Xue, Wang-Chen, Cai, Ce, Gao, He, Li, Cheng-Kui, Li, Xiao-Bo, Zheng, Chao, Liu, Jia-Cong, Wang, Ping, Wang, Jin, Peng, Wen-Xi, Liu, Cong-Zhan, Li, Xin-Qiao, and Wen, Xiang-Yang

Subjects

*X-ray bursts, *GAMMA ray bursts, *ELECTROMAGNETIC waves, *GRAVITATIONAL waves, *X-ray telescopes, *HARD X-rays

Abstract

Spectral lag of the low-energy photons with respect to the high-energy ones is a common astrophysical phenomenon (such as gamma-ray bursts and the Crab Pulsar) and may serve as a key probe to the underlying radiation mechanism. However, spectral lag in keV range of the magnetar bursts has not been systematically studied yet. In this work, we perform a detailed spectral lag analysis with the Li et al.'s Cross-Correlation Function (Li-CCF) method for SGR J1935+2154 bursts observed by Insight - Hard X-ray Modulation Telescope (HXMT), Gravitational Wave High-energy Electromagnetic Counterpart All-sky Monitor (GECAM), and Fermi /Gamma-ray Burst Monitor (GBM) from 2014 July to 2022 January. We discover that the spectral lags of about 61 per cent (non-zero significance >1σ) bursts from SGR J1935+2154 are linearly dependent on the photon energy (E) with t lag(E) = α(E /keV) + C , which may be explained by a linear change of the temperature of the blackbody-emitting plasma with time. The distribution of the slope (α) approximately follows a Gaussian function with mean and standard deviation of 0.02 ms keV−1 (i.e. high-energy photons arrive earlier) and 0.02 ms keV−1, respectively. We also find that the distribution can be well fitted with three Gaussians with mean values of ∼−10.009, 0.013, and 0.039 ms keV−1, which may correspond to different origins of the bursts. These spectral lag features may have important implications on the magnetar bursts. [ABSTRACT FROM AUTHOR]

Published

2023

4. Photometric and Spectroscopic Observations of GRB 190106A: Emission from Reverse and Forward Shocks with Late-time Energy Injection.

Author

Zhu, Zi-Pei, Xu, Dong, Fynbo, Johan P. U., Fu, Shao-Yu, Zhang, Jun-Bo, Liu, Xing, Jiang, Shuai-Qing, Xiao, Shuo, Xie, Wei, Zou, Yuan-Chuan, Gao, He, Hartmann, Dieter, de Ugarte Postigo, Antonio, Kann, David Alexander, Valle, Massimo Della, Jakobsson, Pall, Zafar, Tayabba, D'Elia, Valerio, Xin, Li-Ping, and Wei, Jian-Yan

Subjects

GAMMA ray bursts, LIGHT curves, X-rays, WAVELENGTHS, REDSHIFT

Abstract

Early optical observations of gamma-ray bursts can significantly contribute to the study of the central engine and physical processes therein. However, of the thousands observed so far, only a few have data at optical wavelengths in the first minutes after the onset of the prompt emission. Here we report on GRB 190106A, whose afterglow was observed in optical bands just 36 s after the Swift/BAT trigger, i.e., during the prompt emission phase. The early optical afterglow exhibits a bimodal structure followed by a normal decay, with a faster decay after ∼ T 0 + 1 day. We present optical photometric and spectroscopic observations of GRB 190106A. We derive the redshift via metal absorption lines from Xinglong 2.16 m/BFOSC spectroscopic observations. From the BFOSC spectrum, we measure z = 1.861 ± 0.002. The double-peak optical light curve is a significant feature predicted by the reverse-forward external-shock model. The shallow decay followed by a normal decay in both the X-ray and optical light curves is well explained with the standard forward-shock model with late-time energy injection. Therefore, GRB 190106A offers a case study for GRB emission from both reverse and forward shocks. [ABSTRACT FROM AUTHOR]

Published

2023

5. Burst search method based on likelihood ratio in Poisson statistics.

Author

Cai, Ce, Xiong, Shao-Lin, Xue, Wang-Chen, Zhao, Yi, Xiao, Shuo, Yi, Qi-Bin, Guo, Zhi-Wei, Liu, Jia-Cong, Zhang, Yan-Qiu, Zheng, Chao, Xie, Sheng-Lun, Du, Yan-Qi, Zhao, Xiao-Yun, Li, Cheng-Kui, Wang, Ping, Peng, Wen-Xi, Zheng, Shi-Jie, Song, Li-Ming, Li, Xin-Qiao, and Wen, Xiang-Yang

Subjects

POISSON'S ratio, GAMMA ray bursts, X-ray bursts, GRAVITATIONAL waves

Abstract

Searching for X-ray and gamma-ray bursts, including Gamma-ray bursts (GRBs), Soft Gamma-ray Repeaters (SGRs), and high energy transients associated with Gravitational wave (GW) events or Fast radio bursts (FRBs), is of great importance in the multimessenger and multiwavelength era. Although a coherent search based on the likelihood ratio and Gaussian statistics has been established and utilized in many studies, this Gaussian-based method could be problematic for weak and short bursts which usually have very few counts. To deal with all bursts including weak ones, here we propose the coherent search in Poisson statistics. We studied the difference between Poisson-based and Gaussian-based search methods by Monte Carlo simulations, and find that the Poisson-based search method has advantages compared to the Gaussian case, especially for weak bursts. Our results show that, for very weak bursts with very low number of counts, the Poisson-based search can provide higher significance than the Gaussian-based search, and its likelihood ratio (for background fluctuation) still generally follows the χ2 distribution, making the significance estimation of searched bursts very convenient. Thus, we suggest that the coherent search based on Poisson-likelihood ratio is more appropriate in the search for generic transients including very weak ones. [ABSTRACT FROM AUTHOR]

Published

2023

6. Energetic transients joint analysis system for multi-INstrument (ETJASMIN) for GECAM – I. Positional, temporal, and spectral analyses.

Author

Xiao, Shuo, Xiong, Shao-Lin, Cai, Ce, Song, Li-Ming, Zheng, Shi-Jie, Peng, Wen-Xi, Wang, Ping, Qiao, Rui, Guo, Dong-Ya, Wang, Jin, Li, Xiao-Bo, Song, Xin-Ying, Yuan, Yong, Fan, Xi-Long, Zhao, Xiao-Yun, Huang, Yue, Ma, Xiang, Zhang, Peng, Li, Bing, and Ge, Ming-Yu

Subjects

*TRANSIENT analysis, *PIPELINES, *GAMMA ray bursts, *ELECTROMAGNETIC waves, *GRAVITATIONAL waves, *DATA analysis, *SPACE vehicles

Abstract

Gravitational wave high-energy Electromagnetic Counterpart All-sky Monitor (GECAM) is a dedicated mission, launched in December 2020, for gamma-ray transients, including gamma-ray bursts (GRBs) and soft gamma repeater (SGR) bursts in the multimessenger and multiwavelength astronomy era. Since GECAM consists of two independent spacecrafts (or say instruments), and the framework of data analysis for multiple spacecrafts is distinctive from that for only one spacecraft, which is the case for most GRB missions, we developed a dedicated pipeline called Energetic Transients Joint Analysis System for Multi-INstrument (ETJASMIN) for GECAM mission. This pipeline has been naturally extended to incorporate data from other gamma-ray instruments, including the operating missions, such as Insight- HXMT/HE, Fermi /GBM, Swift /BAT, INTEGRAL/SPI-ACS, Konus-Wind, and GRID, as well as the forthcoming missions, such as SVOM/GRM and HEBS. In this paper, we present this pipeline with a focus on the data analysis procedures, methodology, and results in terms of the localization, verification (classification), spectral, and temporal analyses of gamma-ray transients. We show that this pipeline could provide more accurate, reliable, and comprehensive results than that of individual spacecraft, which is beneficial for gamma-ray transients observation. [ABSTRACT FROM AUTHOR]

Published

2022

7. GECAM Detection of a Bright Type I X-Ray Burst from 4U 0614+09: Hint for Its Spin Frequency at 413 Hz.

Author

Chen, Yu-Peng, Li, Jian, Xiong, Shao-Lin, Ji, Long, Zhang, Shu, Peng, Wen-Xi, Qiao, Rui, Li, Xin-Qiao, Wen, Xiang-Yang, Song, Li-Ming, Zheng, Shi-Jie, Song, Xin-Ying, Zhao, Xiao-Yun, Huang, Yue, Lu, Fang-Jun, Zhang, Shuang-Nan, Xiao, Shuo, Cai, Ce, An, Zheng-Hua, and Chang, Zhi

Subjects

X-ray bursts, TIME-resolved spectroscopy, ELECTROMAGNETIC waves, LIGHT curves, OSCILLATIONS, GAMMA ray bursts

Abstract

One month after launching the Gravitational Wave High-energy Electromagnetic Counterpart All-sky Monitor, a bright thermonuclear X-ray burst from 4U 0614+09 was observed on 2021 January 24. We report the time-resolved spectroscopy of the burst and a hint of burst oscillation at 413 Hz with a fractional amplitude ∼2.0% (rms). This coincides with the burst oscillation previously discovered with Swift/Burst Alert Telescope (Strohmayer et al. 2008), and therefore supports the spin frequency of this source. This burst is a bright one in the normal bursts detected from 4U 0614+09, which leads to an upper limit of distance estimation of 3.1 kpc. The folded light curve during the burst oscillation shows a sinusoidal structure, which is consistent with previous observations. [ABSTRACT FROM AUTHOR]

Published

2022

8. Searching for Gravitationally Lensed Gamma-Ray Bursts with Their Afterglows.

Author

Chen, Shengnan, Wen, Xudong, Gao, He, Liao, Kai, Liu, Liangduan, Zhao, Litao, Li, Zhengxiang, Biesiada, Marek, PiĂłrkowska-Kurpas, Aleksandra, Xiao, Shuo, and Xiong, Shaolin

Subjects

GAMMA ray bursts, ASTRONOMICAL surveys, X-rays

Abstract

Gamma-ray bursts (GRBs) at high redshifts are expected to be gravitationally lensed by objects of different mass scales. Other than a single recent claim, no lensed GRB has been detected so far by using gamma-ray data only. In this paper, we suggest that multiband afterglow data might be an efficient way to search for lensed GRB events. Using the standard afterglow model, we calculate the characteristics of the lensed afterglow lightcurves under the assumption of two popular analytic lens models: the point-mass and singular isothermal sphere models. In particular, when different lensed images cannot be resolved, their signals would be superimposed together with a given time delay. In this case, the X-ray afterglows are likely to contain several X-ray flares of similar width in linear scale and similar spectrum, and the optical afterglow lightcurve will show re-brightening signatures. Since the lightcurves from the image arriving later would be compressed and deformed in the logarithmic timescale, the larger time delay (i.e., the larger mass of the lens), the easier it is to identify the lensing effect. We analyzed the archival data of optical afterglows and found one potential candidate of the lensed GRB (130831A) with time delay ∼500 s; however, observations of this event in gamma-ray and X-ray bands seem not to support the lensing hypothesis. In the future, with the cooperation of the all-sky monitoring gamma-ray detectors and multiband sky survey projects, the method proposed in this paper would be more efficient in searching for strongly lensed GRBs. [ABSTRACT FROM AUTHOR]

Published

2022

9. Design and test of a portable Gamma-Ray Burst simulator for GECAM.

Author

Chen, Can, Xiao, Shuo, Xiong, Shaolin, Yu, Nian, Wen, Xiangyang, Gong, Ke, Li, Xinqiao, Li, Chaoyang, Hou, Dongjie, Yang, Xiongtao, Zhao, Zijian, Zhu, Yuxuan, Zhang, Dali, An, Zhenghua, Zhao, Xiaoyun, Xu, Yupeng, and Wang, Yusa

Subjects

*GAMMA ray bursts, *ELECTROMAGNETIC waves, *SOFTWARE localization, *COMPACT objects (Astronomy), *TEST design, *SUPERGIANT stars, *HIGH voltages, *GRAVITATIONAL waves

Abstract

The main scientific goal of the Gravitational wave high-energy Electromagnetic Counterpart All-sky Monitor (GECAM) is to monitor various types of Gamma-Ray Bursts (GRB) originated from merger of binary compact stars, which could also produce gravitational wave, and collapse of massive stars. In order to study the response of GECAM Gamma-Ray Detectors (GRDs) to high-energy bursts and test the in-flight trigger and localization software of GECAM before the launch, a portable GRB simulator device is designed and implemented based on grid controlled X-ray tube (GCXT) and direct digital synthesis (DDS) technologies. The design of this GRB simulator which modulates X-ray flux powered by high voltage up to 20 kV is demonstrated, and the time jitter (FWHM) of the device is about 0.9 μs. Before the launch in December, 2020, both two GECAM satellites were irradiated by different types of GRBs (including short and long bursts in duration) generated by this GRB simulator. The light curves detected with GECAM/GRDs are consistent with the programmed input functions within statistical uncertainties, indicating the good performance of both the GRDs and the GRB simulator. [ABSTRACT FROM AUTHOR]

Published

2021

10. GRB 200415A: A Short Gamma-Ray Burst from a Magnetar Giant Flare?

Author

Yang, Jun, Chand, Vikas, Zhang, Bin-Bin, Yang, Yu-Han, Zou, Jin-Hang, Yang, Yi-Si, Zhao, Xiao-Hong, Shao, Lang, Xiong, Shao-Lin, Luo, Qi, Li, Xiao-Bo, Xiao, Shuo, Li, Cheng-Kui, Liu, Cong-Zhan, Joshi, Jagdish C., Sharma, Vidushi, Chakraborty, Manoneeta, Li, Ye, and Zhang, Bing

Subjects

MAGNETARS, GAMMA ray bursts, STELLAR mergers, SOLAR flares, COMPACT objects (Astronomy), DATA analysis

Abstract

The giant flares of soft gamma-ray repeaters (SGRs) have long been proposed to contribute to at least a subsample of the observed short gamma-ray bursts (GRBs). In this paper, we perform a comprehensive analysis of the high-energy data of the recent bright short GRB 200415A, which was located close to the Sculptor galaxy. Our results suggest that a magnetar giant flare provides the most natural explanation for most observational properties of GRB 200415A, including its location, temporal and spectral features, energy, statistical correlations, and high-energy emissions. On the other hand, the compact star merger GRB model is found to have difficulty reproducing such an event in a nearby distance. Future detections and follow-up observations of similar events are essential to firmly establish the connection between SGR giant flares and a subsample of nearby short GRBs. [ABSTRACT FROM AUTHOR]

Published

2020