利用切伦科夫望远镜阵列勘测银河面的前景

IF 5.3 2区 物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS
S. Abe, J. Abhir, A. Abhishek, F. Acero, A. Acharyya, R. Adam, A. Aguasca-Cabot, I. Agudo, A. Aguirre-Santaella, J. Alfaro, N. Alvarez-Crespo, R. Alves Batista, J.-P. Amans, E. Amato, G. Ambrosi, F. Ambrosino, E.O. Angüner, C. Aramo, C. Arcaro, L. Arrabito, K. Asano, Y. Ascasíbar, J. Aschersleben, L. Augusto Stuani, M. Backes, C. Balazs, M. Balbo, J. Ballet, A. Baquero Larriva, V. Barbosa Martins, U. Barres de Almeida, J.A. Barrio, I. Batković, R. Batzofin, J. Baxter, J. Becerra González, G. Beck, L. Beiske, R. Belmont, W. Benbow, E. Bernardini, J. Bernete, K. Bernlöhr, A. Berti, B. Bertucci, V. Beshley, P. Bhattacharjee, S. Bhattacharyya, B. Bi, N. Biederbeck, A. Biland, E. Bissaldi, J. Biteau, O. Blanch, J. Blazek, F. Bocchino, C. Boisson, J. Bolmont, L. Bonneau Arbeletche, G. Bonnoli, A. Bonollo, P. Bordas, Z. Bosnjak, E. Bottacini, C. Braiding, E. Bronzini, R. Brose, A.M. Brown, F. Brun, G. Brunelli, N. Bucciantini, A. Bulgarelli, I. Burelli, L. Burmistrov, M. Burton, A. ..
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引用次数: 0

摘要

银河系中已知的超高能伽马射线源大约有一百个,这些伽马射线源是通过有针对性的观测和巡天相结合探测到的。在几十 GeV 到几百 TeV 的能量范围内对整个银河平面进行巡天观测已被提议作为即将建成的切伦科夫望远镜阵列观测站(CTAO)的一个关键科学项目。本文介绍了银河系平面巡天(GPS)的研究现状。我们建立并公开了一个天空模型,该模型结合了对已知伽马射线发射体的最新观测数据,以及银河系中宇宙射线相互作用产生的星际发射的最先进的物理驱动模型。我们还根据最近对仪器性能的估计,对观测策略(指向模式和时间安排)进行了优化。我们使用改进后的天空模型和观测策略来模拟全球定位系统的数据,这些数据与十年内 1620 个小时的总观测时间相对应。然后使用正在为真实数据开发的方法和软件工具对数据进行分析。根据我们的模型假设和所考虑的实现方式,我们表明全球定位系统有可能将已知银河 VHE 发射器的数量增加近五倍。这相当于探测到两百多个脉冲星风星云和几十个超新星残余,其平均积分通量比现有的1 TeV以上样本低一个数量级,因此为进行前所未有的群体研究提供了可能。全球定位系统还有可能对双星系统和脉冲星进行新的甚高频探测,证实伽马射线脉冲星假想星群的存在,其中有额外的TeV发射成分,并探测能够将粒子加速到PeV能量(PeVatrons)的亮源。此外,全球定位系统将成为对这些源类进行更深入跟踪观测的探路者。最后,我们表明,我们可以从全球定位系统数据中提取出未解决源对弥漫发射的贡献估计值,并表明探测星际发射和统计区分不同情况的前景良好。因此,利用 CTAO 从两个半球对整个银河系平面进行巡天观测,将确保我们对银河系 VHE 源群和星际发射的了解取得变革性的进展。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Prospects for a survey of the galactic plane with the Cherenkov Telescope Array
Approximately one hundred sources of very-high-energy (VHE) gamma rays are known in the Milky Way, detected with a combination of targeted observations and surveys. A survey of the entire Galactic Plane in the energy range from a few tens of GeV to a few hundred TeV has been proposed as a Key Science Project for the upcoming Cherenkov Telescope Array Observatory (CTAO). This article presents the status of the studies towards the Galactic Plane Survey (GPS). We build and make publicly available a sky model that combines data from recent observations of known gamma-ray emitters with state-of-the-art physically-driven models of synthetic populations of the three main classes of established Galactic VHE sources (pulsar wind nebulae, young and interacting supernova remnants, and compact binary systems), as well as of interstellar emission from cosmic-ray interactions in the Milky Way. We also perform an optimisation of the observation strategy (pointing pattern and scheduling) based on recent estimations of the instrument performance. We use the improved sky model and observation strategy to simulate GPS data corresponding to a total observation time of 1620 hours spread over ten years. Data are then analysed using the methods and software tools under development for real data. Under our model assumptions and for the realisation considered, we show that the GPS has the potential to increase the number of known Galactic VHE emitters by almost a factor of five. This corresponds to the detection of more than two hundred pulsar wind nebulae and a few tens of supernova remnants at average integral fluxes one order of magnitude lower than in the existing sample above 1 TeV, therefore opening the possibility to perform unprecedented population studies. The GPS also has the potential to provide new VHE detections of binary systems and pulsars, to confirm the existence of a hypothetical population of gamma-ray pulsars with an additional TeV emission component, and to detect bright sources capable of accelerating particles to PeV energies (PeVatrons). Furthermore, the GPS will constitute a pathfinder for deeper follow-up observations of these source classes. Finally, we show that we can extract from GPS data an estimate of the contribution to diffuse emission from unresolved sources, and that there are good prospects of detecting interstellar emission and statistically distinguishing different scenarios. Thus, a survey of the entire Galactic plane carried out from both hemispheres with CTAO will ensure a transformational advance in our knowledge of Galactic VHE source populations and interstellar emission.
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来源期刊
Journal of Cosmology and Astroparticle Physics
Journal of Cosmology and Astroparticle Physics 地学天文-天文与天体物理
CiteScore
10.20
自引率
23.40%
发文量
632
审稿时长
1 months
期刊介绍: Journal of Cosmology and Astroparticle Physics (JCAP) encompasses theoretical, observational and experimental areas as well as computation and simulation. The journal covers the latest developments in the theory of all fundamental interactions and their cosmological implications (e.g. M-theory and cosmology, brane cosmology). JCAP''s coverage also includes topics such as formation, dynamics and clustering of galaxies, pre-galactic star formation, x-ray astronomy, radio astronomy, gravitational lensing, active galactic nuclei, intergalactic and interstellar matter.
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