ler : LVK (LIGO-Virgo-KAGRA collaboration) event (compact-binary mergers) rate calculator and simulator

'$ler$' is a statistics-based Python package specifically designed for computing detectable rates of both lensed and unlensed GW events, catering to the requirements of the LIGO-Virgo-KAGRA Scientific Collaboration and astrophysics research scholars. The core functionality of '$ler$&#...

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Hauptverfasser: Phurailatpam, Hemantakumar, More, Anupreeta, Narola, Harsh, Yin, Ng Chung, Janquart, Justin, Broeck, Chris Van Den, Hannuksela, Otto Akseli, Singh, Neha, Keitel, David
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Sprache:eng
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Zusammenfassung:'$ler$' is a statistics-based Python package specifically designed for computing detectable rates of both lensed and unlensed GW events, catering to the requirements of the LIGO-Virgo-KAGRA Scientific Collaboration and astrophysics research scholars. The core functionality of '$ler$' intricately hinges upon the interplay of various components which include sampling the properties of compact-binary sources, lens galaxies characteristics, solving lens equations to derive properties of resultant images, and computing detectable GW rates. This comprehensive functionality builds on the leveraging of array operations and linear algebra from the $numpy$ library, enhanced by interpolation methods from $scipy$ and Python's $multiprocessing$ capabilities. Efficiency is further boosted by the $numba$ library's Just-In-Time ($njit$) compilation, optimizing extensive numerical computations and employing the inverse transform sampling method to replace more cumbersome rejection sampling. The modular design of '$ler$' not only optimizes speed and functionality but also ensures adaptability and upgradability, supporting the integration of additional statistics as research evolves. Currently, '$ler$' is an important tool in generating simulated GW events, both lensed and unlensed, and provides astrophysically accurate distributions of event-related parameters for both detectable and non-detectable events. This functionality aids in event validation and enhances the forecasting of detection capabilities across various GW detectors to study such events. The architecture of the '$ler$' API facilitates seamless compatibility with other software packages, allowing researchers to integrate and utilize its functionalities based on specific scientific requirements.
DOI:10.48550/arxiv.2407.07526