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Main Authors: Hu, Chen-Ran, Huang, Yong-Feng, Geng, Jin-Jun, Deng, Chen, Zou, Ze-Cheng, Dong, Xiao-Fei, Wang, Yi-Dan, Wang, Pei, Xu, Fan, Cui, Lang, Zhang, Song-Bo, Wu, Xue-Feng
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2503.18084
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author Hu, Chen-Ran
Huang, Yong-Feng
Geng, Jin-Jun
Deng, Chen
Zou, Ze-Cheng
Dong, Xiao-Fei
Wang, Yi-Dan
Wang, Pei
Xu, Fan
Cui, Lang
Zhang, Song-Bo
Wu, Xue-Feng
author_facet Hu, Chen-Ran
Huang, Yong-Feng
Geng, Jin-Jun
Deng, Chen
Zou, Ze-Cheng
Dong, Xiao-Fei
Wang, Yi-Dan
Wang, Pei
Xu, Fan
Cui, Lang
Zhang, Song-Bo
Wu, Xue-Feng
contents Fast radio bursts (FRBs) are millisecond-duration radio flashes of extragalactic origin, with magnetars implicated as viable central engines. Yet their triggering and radiation mechanisms remain unknown. Radio telescopes inevitably record bursts incompletely, as limited sensitivity and finite bandwidth lead to observational truncation. Here we establish a general analytical framework to reconstruct intrinsic population-level frequency characteristics and energetic parameters directly from observationally truncated FRB data. Applying this method to 2,223 bursts of FRB 20121102A observed by three different telescopes, we show that the narrow spectra of repeating FRBs are predominantly an observational selection effect. Only intrinsically high-energy bursts are genuinely narrowband. We further quantify, for the first time, the number and energy of completely undetected bursts, and reveal intrinsic long-term frequency evolution of the source. Our methodology transforms incomplete archival observations into physically meaningful probes, bridging instrumental readouts and intrinsic FRB physics.
format Preprint
id arxiv_https___arxiv_org_abs_2503_18084
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Decoding FRB energetics and frequency features hidden by observational incompleteness
Hu, Chen-Ran
Huang, Yong-Feng
Geng, Jin-Jun
Deng, Chen
Zou, Ze-Cheng
Dong, Xiao-Fei
Wang, Yi-Dan
Wang, Pei
Xu, Fan
Cui, Lang
Zhang, Song-Bo
Wu, Xue-Feng
High Energy Astrophysical Phenomena
Fast radio bursts (FRBs) are millisecond-duration radio flashes of extragalactic origin, with magnetars implicated as viable central engines. Yet their triggering and radiation mechanisms remain unknown. Radio telescopes inevitably record bursts incompletely, as limited sensitivity and finite bandwidth lead to observational truncation. Here we establish a general analytical framework to reconstruct intrinsic population-level frequency characteristics and energetic parameters directly from observationally truncated FRB data. Applying this method to 2,223 bursts of FRB 20121102A observed by three different telescopes, we show that the narrow spectra of repeating FRBs are predominantly an observational selection effect. Only intrinsically high-energy bursts are genuinely narrowband. We further quantify, for the first time, the number and energy of completely undetected bursts, and reveal intrinsic long-term frequency evolution of the source. Our methodology transforms incomplete archival observations into physically meaningful probes, bridging instrumental readouts and intrinsic FRB physics.
title Decoding FRB energetics and frequency features hidden by observational incompleteness
topic High Energy Astrophysical Phenomena
url https://arxiv.org/abs/2503.18084