Guardado en:
Detalles Bibliográficos
Autores principales: Mozgunov, G. Yu., Pozanenko, A. S., Minaev, P. Yu., Chelovekov, I. V., Grebenev, S. A., Demin, A. G., Ridnaya, A. V., Svinkin, D. S., Temiraev, Yu. R., Frederiks, D. D.
Formato: Preprint
Publicado: 2025
Materias:
Acceso en línea:https://arxiv.org/abs/2506.13926
Etiquetas: Agregar Etiqueta
Sin Etiquetas, Sea el primero en etiquetar este registro!
_version_ 1866912437592129536
author Mozgunov, G. Yu.
Pozanenko, A. S.
Minaev, P. Yu.
Chelovekov, I. V.
Grebenev, S. A.
Demin, A. G.
Ridnaya, A. V.
Svinkin, D. S.
Temiraev, Yu. R.
Frederiks, D. D.
author_facet Mozgunov, G. Yu.
Pozanenko, A. S.
Minaev, P. Yu.
Chelovekov, I. V.
Grebenev, S. A.
Demin, A. G.
Ridnaya, A. V.
Svinkin, D. S.
Temiraev, Yu. R.
Frederiks, D. D.
contents We have searched for ultra-long (> 100 s) gamma-ray transients in the data from the anticoincidence shield (ACS) of the SPI gamma-ray spectrometer onboard the INTEGRAL orbital observatory and classified them by machine learning methods. We have found about 4364 candidates for such events in the SPI-ACS data by the `blind' threshold search method. We have developed an algorithm for automatic processing of their light curves that distinguishes a candidate for transients on various time scales and allows its duration and fluence to be determined. The algorithm has been applied to calculate (and compare) the fluxes in the light curves recorded by various INTEGRAL detectors: IREM, SPI-ACS, SPI, ISGRI, and PICsIT. These fluxes have been used to train the classifier based on gradient boosting. Subsequently, we have performed a cluster analysis of the candidates found by the dimensionality reduction and clustering methods. In conclusion we have compared the remaining candidates with the data from the Konus-WIND gamma-ray detectors. Thus, we have confirmed 16 candidates for astrophysical transients, including four candidates for ultra-long gamma-ray bursts from the events detected by the SPI-ACS detector. Out of the probable events, but unconfirmed by other experiments, up to 270 events can be classified as real gamma-ray bursts.
format Preprint
id arxiv_https___arxiv_org_abs_2506_13926
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Search for Astrophysical Transients on Limiting Time Scales and Their Classification Based on INTEGRAL Data
Mozgunov, G. Yu.
Pozanenko, A. S.
Minaev, P. Yu.
Chelovekov, I. V.
Grebenev, S. A.
Demin, A. G.
Ridnaya, A. V.
Svinkin, D. S.
Temiraev, Yu. R.
Frederiks, D. D.
High Energy Astrophysical Phenomena
Instrumentation and Methods for Astrophysics
We have searched for ultra-long (> 100 s) gamma-ray transients in the data from the anticoincidence shield (ACS) of the SPI gamma-ray spectrometer onboard the INTEGRAL orbital observatory and classified them by machine learning methods. We have found about 4364 candidates for such events in the SPI-ACS data by the `blind' threshold search method. We have developed an algorithm for automatic processing of their light curves that distinguishes a candidate for transients on various time scales and allows its duration and fluence to be determined. The algorithm has been applied to calculate (and compare) the fluxes in the light curves recorded by various INTEGRAL detectors: IREM, SPI-ACS, SPI, ISGRI, and PICsIT. These fluxes have been used to train the classifier based on gradient boosting. Subsequently, we have performed a cluster analysis of the candidates found by the dimensionality reduction and clustering methods. In conclusion we have compared the remaining candidates with the data from the Konus-WIND gamma-ray detectors. Thus, we have confirmed 16 candidates for astrophysical transients, including four candidates for ultra-long gamma-ray bursts from the events detected by the SPI-ACS detector. Out of the probable events, but unconfirmed by other experiments, up to 270 events can be classified as real gamma-ray bursts.
title Search for Astrophysical Transients on Limiting Time Scales and Their Classification Based on INTEGRAL Data
topic High Energy Astrophysical Phenomena
Instrumentation and Methods for Astrophysics
url https://arxiv.org/abs/2506.13926