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Main Authors: Nikonorov, I. N., Barkov, M. V., Lyutikov, M.
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2411.04869
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author Nikonorov, I. N.
Barkov, M. V.
Lyutikov, M.
author_facet Nikonorov, I. N.
Barkov, M. V.
Lyutikov, M.
contents Bow shocks generated by pulsars moving through weakly ionized interstellar medium (ISM) produce emission dominated by non-equilibrium atomic transitions. These bow shocks are primarily observed as H$_α$ nebulae. We developed a package, named Shu, that calculates non-LTE intensity maps in more than 150 spectral lines, taking into account geometrical properties of the pulsars' motion and lines of sight. We argue here that atomic (CI, NI, OI) and ionic (SII, NII, OIII, NeIV) transitions can be used as complementary and sensitive probes of ISM. We perform self-consistent 2D relativistic hydrodynamic calculations of the bow shock structure and generate non-LTE emissivity maps, combining global dynamics of relativistic flows, and detailed calculations of the non-equilibrium ionization states. We find that though typically H$_α$ emission is dominant, spectral fluxes in OIII, SII and NII may become comparable for relatively slowly moving pulsars. Overall, morphology of non-LTE emission, especially of the ionic species, is a sensitive probe of the density structures of the ISM.
format Preprint
id arxiv_https___arxiv_org_abs_2411_04869
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Modelling of the atomic lines' emission of fast moving pulsar nebulae
Nikonorov, I. N.
Barkov, M. V.
Lyutikov, M.
High Energy Astrophysical Phenomena
Bow shocks generated by pulsars moving through weakly ionized interstellar medium (ISM) produce emission dominated by non-equilibrium atomic transitions. These bow shocks are primarily observed as H$_α$ nebulae. We developed a package, named Shu, that calculates non-LTE intensity maps in more than 150 spectral lines, taking into account geometrical properties of the pulsars' motion and lines of sight. We argue here that atomic (CI, NI, OI) and ionic (SII, NII, OIII, NeIV) transitions can be used as complementary and sensitive probes of ISM. We perform self-consistent 2D relativistic hydrodynamic calculations of the bow shock structure and generate non-LTE emissivity maps, combining global dynamics of relativistic flows, and detailed calculations of the non-equilibrium ionization states. We find that though typically H$_α$ emission is dominant, spectral fluxes in OIII, SII and NII may become comparable for relatively slowly moving pulsars. Overall, morphology of non-LTE emission, especially of the ionic species, is a sensitive probe of the density structures of the ISM.
title Modelling of the atomic lines' emission of fast moving pulsar nebulae
topic High Energy Astrophysical Phenomena
url https://arxiv.org/abs/2411.04869