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Autori principali: T, Sachin Pradeep E., Sprenger, Tim, Wucknitz, Olaf, Main, Robert A., Spitler, Laura G.
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2505.04576
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author T, Sachin Pradeep E.
Sprenger, Tim
Wucknitz, Olaf
Main, Robert A.
Spitler, Laura G.
author_facet T, Sachin Pradeep E.
Sprenger, Tim
Wucknitz, Olaf
Main, Robert A.
Spitler, Laura G.
contents Fast Radio Bursts (FRBs) exhibit scintillation and scattering, often attributed to interactions with plasma screens in the Milky Way and the host galaxy. When these two screens appear "point-like" to each other, two scales of scintillation can be observed with sufficient frequency resolution. A screen perceives a second screen as extended or resolved when the angular size of the latter is smaller than the angular resolution of the former. We define the ratio of these two as the Resolution Power (RP). Previous observational studies have argued that, in the resolving regime, scintillations disappear, assuming that a screen resolving another screen is equivalent to a screen resolving an incoherent emission region. In this theoretical and simulation-based study of resolving effects in two-screen scenarios, we argue that resolving quenches only the relatively broad-scale scintillation and that this quenching is a gradual process. We present qualitative and quantitative predictions for dynamic spectra, spectral autocorrelation functions (ACF), and modulation indices in resolved and unresolved regimes of two-screen systems. We show that the spectral ACF of a two-screen system has a product term in addition to the sum of individual screen contributions, causing the total modulation index to rise to \sqrt(3) in the unresolved regime. To aid in discovering resolving systems, we also present observable trends in multi-frequency observations of a screen resolving another screen or incoherent emission. Additionally we introduce a new formula to estimate the distance between the FRB and the screen in its host galaxy. We also show that this formula, like previous ones in the literature, is only applicable to screens that are two-dimensional in the plane of the sky.
format Preprint
id arxiv_https___arxiv_org_abs_2505_04576
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Scintillometry of Fast Radio Bursts: Resolution effects in two-screen models
T, Sachin Pradeep E.
Sprenger, Tim
Wucknitz, Olaf
Main, Robert A.
Spitler, Laura G.
Astrophysics of Galaxies
High Energy Astrophysical Phenomena
Fast Radio Bursts (FRBs) exhibit scintillation and scattering, often attributed to interactions with plasma screens in the Milky Way and the host galaxy. When these two screens appear "point-like" to each other, two scales of scintillation can be observed with sufficient frequency resolution. A screen perceives a second screen as extended or resolved when the angular size of the latter is smaller than the angular resolution of the former. We define the ratio of these two as the Resolution Power (RP). Previous observational studies have argued that, in the resolving regime, scintillations disappear, assuming that a screen resolving another screen is equivalent to a screen resolving an incoherent emission region. In this theoretical and simulation-based study of resolving effects in two-screen scenarios, we argue that resolving quenches only the relatively broad-scale scintillation and that this quenching is a gradual process. We present qualitative and quantitative predictions for dynamic spectra, spectral autocorrelation functions (ACF), and modulation indices in resolved and unresolved regimes of two-screen systems. We show that the spectral ACF of a two-screen system has a product term in addition to the sum of individual screen contributions, causing the total modulation index to rise to \sqrt(3) in the unresolved regime. To aid in discovering resolving systems, we also present observable trends in multi-frequency observations of a screen resolving another screen or incoherent emission. Additionally we introduce a new formula to estimate the distance between the FRB and the screen in its host galaxy. We also show that this formula, like previous ones in the literature, is only applicable to screens that are two-dimensional in the plane of the sky.
title Scintillometry of Fast Radio Bursts: Resolution effects in two-screen models
topic Astrophysics of Galaxies
High Energy Astrophysical Phenomena
url https://arxiv.org/abs/2505.04576