Search

Your search keyword '"Xuan, Zeyuan"' showing total 12 results
Start Over Author "Xuan, Zeyuan"
12 results on '"Xuan, Zeyuan"'

1. Extracting Astrophysical Information of Highly-Eccentric Binaries in the Millihertz Gravitational Wave Band

Author

Xuan, Zeyuan, Naoz, Smadar, Li, Alvin K. Y., Kocsis, Bence, Petigura, Erik, Knee, Alan M., McIver, Jess, Kremer, Kyle, and Farr, Will M.

Subjects
Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Astrophysics of Galaxies, General Relativity and Quantum Cosmology
Abstract

Wide, highly eccentric ($e>0.9$) compact binaries can naturally arise as progenitors of gravitational wave (GW) mergers. These systems are expected to have a significant population in the mHz band, with their GW signals characterized by ``repeated bursts" emitted upon each pericenter passage. In this study, we show that the detection of mHz GW signals from highly eccentric stellar mass binaries in the local universe can strongly constrain their orbital parameters. Specifically, it can achieve a relative measurement error of $\sim 10^{-6}$ for orbital frequency and $\sim 1\%$ for eccentricity (as $1-e$) in most of the detectable cases. On the other hand, the binary's mass ratio, distance, and intrinsic orbital inclination may be less precisely determined due to degeneracies in the GW waveform. We also perform mock LISA data analysis to evaluate the realistic detectability of highly eccentric compact binaries. Our results show that highly eccentric systems could be efficiently identified when multiple GW sources and stationary Gaussian instrumental noise are present in the detector output. This work highlights the potential of extracting the signal of ``bursting'' LISA sources to provide valuable insights into their orbital evolution, surrounding environment, and formation channels., Comment: 16+10 pages, 6+4 figures. Submitted to PRD

Published
2024

2. Stochastic Gravitational Wave Background from Highly-Eccentric Stellar-Mass Binaries in the Milli-hertz Band

Author

Xuan, Zeyuan, Naoz, Smadar, Kocsis, Bence, and Michaely, Erez

Subjects
Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Astrophysics of Galaxies, General Relativity and Quantum Cosmology
Abstract

Many gravitational wave (GW) sources are expected to have non-negligible eccentricity in the millihertz band. These highly eccentric compact object binaries may commonly serve as a progenitor stage of GW mergers, particularly in dynamical channels where environmental perturbations bring a binary with large initial orbital separation into a close pericenter passage, leading to efficient GW emission and a final merger. This work examines the stochastic GW background from highly eccentric ($e\gtrsim 0.9$), stellar-mass sources in the mHz band. Our findings suggest that these binaries can contribute a substantial GW power spectrum, potentially exceeding the LISA instrumental noise at $\sim 3-7$~mHz. This stochastic background is likely to be dominated by eccentric sources within the Milky Way, thus introducing anisotropy and time dependence in LISA's detection. However, given efficient search strategies to identify GW transients from highly eccentric binaries, the unresolvable noise level can be substantially lower, approaching $\sim 2$ orders of magnitude below the LISA noise curve. Therefore, we highlight the importance of characterizing stellar-mass GW sources with extreme eccentricity, especially their transient GW signals in the millihertz band., Comment: 14 pages, 4 figures, accepted by PRD

Published
2024

3. Detecting Gravitational Wave Bursts From Stellar-Mass Binaries in the Milli-hertz Band

Author

Xuan, Zeyuan, Naoz, Smadar, Kocsis, Bence, and Michaely, Erez

Subjects
Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Astrophysics of Galaxies, General Relativity and Quantum Cosmology
Abstract

The dynamical formation channels of gravitational wave (GW) sources typically involve a stage when the compact object binary source interacts with the environment, which may excite its eccentricity, yielding efficient GW emission. For the wide eccentric compact object binaries, the GW emission happens mostly near the pericenter passage, creating a unique, burst-like signature in the waveform. This work examines the possibility of stellar-mass bursting sources in the millihertz band for future LISA detections. Because of their long lifetime ($\sim 10^{7}\rm\, yr$) and promising detectability, the number of millihertz bursting sources can be large in the local universe. For example, based on our estimates, there will be $\sim 3 - 45$ bursting binary black holes in the Milky Way, with $\sim 10^{2} - 10^{4}$ bursts detected during the LISA mission. Moreover, we find that the number of bursting sources strongly depends on their formation history. If certain regions undergo active formation of compact object binaries in the recent few million years, there will be a significantly higher bursting source fraction. Thus, the detection of millihertz GW bursts not only serves as a clue for distinguishing different formation channels, but also helps us understand the star formation history in different regions of the Milky Way., Comment: 14+7 pages, 7+2 figures, accepted by ApJ

Published
2023

4. Detecting Accelerating Eccentric Binaries in the LISA Band

Author

Xuan, Zeyuan, Naoz, Smadar, and Chen, Xian

Subjects
Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Astrophysics of Galaxies, General Relativity and Quantum Cosmology
Abstract

Many gravitational wave (GW) sources in the LISA band are expected to have non-negligible eccentricity. Furthermore, many of them can undergo acceleration because they reside in the presence of a tertiary. Here we develop analytical and numerical methods to quantify how the compact binary's eccentricity enhances the detection of its peculiar acceleration. We show that the general relativistic precession pattern can disentangle the binary's acceleration-induced frequency shift from the chirp-mass-induced frequency shift in GW template fitting, thus relaxing the signal-to-noise ratio requirement for distinguishing the acceleration by a factor of $10\sim100$. Moreover, by adopting the GW templates of the accelerating eccentric compact binaries, we can enhance the acceleration measurement accuracy by a factor of $\sim100$, compared to the zero-eccentricity case, and detect the source's acceleration even if it does not change during the observational time. For example, a stellar-mass binary black hole (BBH) with moderate eccentricity in the LISA band yields an error of the acceleration measurement $\sim10^{-7}m\cdot s^{-2}$ for $\rm{SNR}=20$ and observational time of $4$ yrs. In this example, we can measure the BBHs' peculiar acceleration even when it is $\sim1\rm pc$ away from a $4\times 10^{6}\rm M_{\odot}$ SMBH. Our results highlight the importance of eccentricity to the LISA-band sources and show the necessity of developing GW templates for accelerating eccentric compact binaries., Comment: 15 pages (+references), 9 figures. Accepted by PRD

Published
2022
Full Text
View/download PDF

5. Degeneracy between mass and peculiar acceleration for the double white dwarfs in the LISA band

Author

Xuan, Zeyuan, Peng, Peng, and Chen, Xian

Subjects
Astrophysics - High Energy Astrophysical Phenomena, General Relativity and Quantum Cosmology
Abstract

Mass and distance are fundamental quantities to measure in gravitational-wave (GW) astronomy. However, recent studies suggest that the measurement may be biased due to the acceleration of GW source. Here we develop an analytical method to quantify such a bias induced by a tertiary on a double white dwarf (DWD), since DWDs are the most common GW sources in the milli-Hertz band. We show that in a large parameter space the mass is degenerate with the peculiar acceleration, so that from the waveform we can only retrieve a mass of ${\cal M}(1+\Gamma)^{3/5}$, where ${\cal M}$ is the real chirp mass of the DWD and $\Gamma$ is a dimensionless factor proportional to the peculiar acceleration. Based on our analytical method, we conduct mock observation of DWDs by the Laser Interferometer Space Antenna (LISA). We find that in about $9\%$ of the cases the measured chirp mass is biased due to the presence of a tertiary by $(5-30)\%$. Even more extreme cases are found in about a dozen DWDs and they may be misclassified as double neutron stars, binary black holes, DWDs undergoing mass transfer, or even binaries containing lower-mass-gap objects and primordial black holes. The bias in mass also affects the measurement of distance, resulting in a seemingly over-density of DWDs within a heliocentric distance of $1$ kpc as well as beyond $100$ kpc. Our result highlights the necessity of modeling the astrophysical environments of GW sources to retrieve their correct physical parameters.

Published
2020
Full Text
View/download PDF

6. Exciting modes due to the aberration of gravitational waves: Measurability for extreme-mass-ratio inspirals

Author

Torres-Orjuela, Alejandro, Seoane, Pau Amaro, Xuan, Zeyuan, Chua, Alvin J. K., Rosell, María J. B., and Chen, Xian

Subjects
General Relativity and Quantum Cosmology, Astrophysics - Cosmology and Nongalactic Astrophysics
Abstract

Gravitational waves from a source moving relative to us can suffer from special-relativistic effects such as aberration. The required velocities for these to be significant are on the order of $1000\,\textrm{km s}^{-1}$. This value corresponds to the velocity dispersion that one finds in clusters of galaxies. Hence, we expect a large number of gravitational-wave sources to have such effects imprinted in their signals. In particular, the signal from a moving source will have its higher modes excited, i.e., $(3,3)$ and beyond. We derive expressions describing this effect, and study its measurability for the specific case of a circular, non-spinning extreme-mass-ratio inspiral. We find that the excitation of higher modes by a peculiar velocity of $1000\,\textrm{km\,s}^{-1}$ is detectable for such inspirals with signal-to-noise ratios of $\gtrsim20$. Using a Fisher matrix analysis, we show that the velocity of the source can be measured to a precision of just a few percent for a signal-to-noise ratio of 100. If the motion of the source is ignored parameter estimates could be biased, e.g., the estimated masses of the components through a Doppler shift. Conversely, by including this effect in waveform models, we could measure the velocity dispersion of clusters of galaxies at distances inaccessible to light., Comment: Accepted PRL

Published
2020
Full Text
View/download PDF

11. The design and implementation of all-dimensional planar motion positioning system based on multi-sensor

Author

Wang Shilin, Xuan Zeyuan, Cai Xiaoqing, He Chunhua, and Zhang Liangqi

Subjects
Robot kinematics, Engineering, Positioning system, business.industry, Vibrating structure gyroscope, Gyroscope, law.invention, Planar, law, Linear motion, Electronic engineering, Computer vision, Artificial intelligence, business, Encoder, Motion system
Abstract

With the widespread promotion of all-dimensional planar motion system, increasingly importance has been attached to the corresponding modules. This article introduces a kind of integrated module designed for positioning the planar motion system. The system contains two sensors, they're magnetic encoder and mems gyro chip. Magnetic encoder is used to record the distance of the two driven wheels while the gyro module is used to record the deflection angle. With the thought of differentiation, we decomposed continuous motion into many small pieces of linear motion to get the coordinate of the system. Another obvious merit is that the driven wheels can move up and down automatically according to the condition of the road, which made the calculation of the system's coordinate accurate.

Published
2016
Full Text
View/download PDF

12. Design of an omnibearing mobile self-stationary pan-tilt

Author

Xu Chenglu, Ye Xianghao, Xie Shuailin, and Xuan Zeyuan

Subjects
Engineering, Telerobotics, business.industry, Software development, Modular design, Microsoft Visual Studio, law.invention, Microcontroller, law, Eye tracking, Computer vision, Artificial intelligence, business, Servo, Computer hardware, Remote control
Abstract

In order to solve the fixed pan-tilt's blind spots problem, expand the scope of monitoring, realize the visual tracking, we designed a new type of omnibearing mobile self-stationary pan-tilt based on the control concept of visual servo. In visual studio platform, using c++ language for software development, the automatic close target and automatic target tracking algorithm was completed. Using the modular design idea, we designed hand held three-degree-of-freedom self-stabilization pan-tilt module, omnibearing collapsible mobile platform module and remote control module, and each module can work together or independently. Self-stationary pan-tilt consists of the omnibearing collapsible mobile platform and hand held three-degree-of-freedom self-stabilization pan-tilt. It can realize omnibearing movement, wireless transmission synchronously between video and control signal, stationary track shoot, tracking shoot, autonomous line feed and other functions. Embedded platform which based on the STM32F407 micro controller is used as the self-stationary pan-tilt's decision and control kernel. Remote control system provides human-computer interaction interface such as the upper machine, handle, which realize target crossing, stationary track shoot, target monitoring and other tasks conveniently.

Published
2015
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results