Your search keyword '"Klimovičová, Kateřina"' showing total 11 results

1. Modulation of X-ray flux by obscuration of neutron star boundary layer

Author

Török, Gabriel, Klimovičová, Kateřina, Lančová, Debora, Matuszková, Monika, Šrámková, Eva, Urbanec, Martin, Čemeljić, Miljenko, Šprňa, René, and Karas, Vladimír

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

The quasi-periodic oscillations (QPOs) observed in the X-ray variability of both black hole (BH) and neutron star (NS) systems provide a tool for probing strong gravity and dense matter equations of state. Nevertheless, the mechanism of QPO modulation in NS systems, where the amplitudes of QPOs with frequencies approaching kHz range are very high in comparison to BH high-frequency QPOs, remains an unsolved puzzle. Relativistic ray tracing of photons emitted from the immediate vicinity of compact objects has, to date, been used to investigate various mechanisms that explain the observed weak BH QPOs. However, it has not been applied to model the NS QPO signal, which requires incorporating the NS surface and a bright boundary layer (BL) on it. Here, we explore the QPO modulation mechanisms based on the BL obscuration. Using simplified models of axisymmetric oscillations of thick accretion discs (tori), we demonstrate that the disc oscillations drive the high NS QPO amplitudes through BL obscuration, which is relevant especially for vertical oscillations. We also demonstrate that obscuration effects enable the observability of the Keplerian frequency in the case of discs that decay due to instabilities., Comment: 10 pages, 5 figures, accepted for publication in The Astrophysical Journal

Published

2025

2. Accretion tori around rotating neutron stars I: Structure, shape and size

Author

Matuszková, Monika, Török, Gabriel, Lančová, Debora, Klimovičová, Kateřina, Horák, Jiří, Urbanec, Martin, Šrámková, Eva, Straub, Odele, Urbancová, Gabriela, and Karas, Vladimír

Subjects

Astrophysics - High Energy Astrophysical Phenomena, General Relativity and Quantum Cosmology

Abstract

We present a full general relativistic analytic solution for a radiation-pressure supported equilibrium fluid torus orbiting a rotating neutron star (NS). Previously developed analytical methods are thoroughly applied in the Hartle-Thorne geometry, including the effects of both the NS's angular momentum and quadrupole moment. The structure, size and shape of the torus are explored, focusing especially on the critically thick solution - the cusp tori. For the astrophysically relevant range of NS parameters, we examine how our findings differ from those obtained for the Schwarzschild spacetime. The solutions for rotating stars display signatures of the interplay between relativistic and Newtonian effects where the impact of NS angular momentum and quadrupole moment are almost counterbalanced at the given radius. Nevertheless, the spacetime parameters still strongly influence the size of tori, which can be shown in a coordinate-independent way. Finally, we discuss the importance of the size of the central NS, determining whether or not the surrounding torus may exist. We provide a set of tools in a Wolfram Mathematica code, which poses a basis allowing for a further investigation of the impact of the NSs' superdense matter equation of state on the spectral and temporal behaviour of accretion tori., Comment: 7 pages, 5 figures, Accepted for publication in A&A. Extended discussion on the quadrupole moment effect

Published

2024

3. Accretion tori around rotating neutron stars II: Oscillations and precessions

Author

Matuszková, Monika, Török, Gabriel, Klimovičová, Kateřina, Horák, Jiří, Straub, Odele, Šrámková, Eva, Lančová, Debora, Urbanec, Martin, Urbancová, Gabriela, and Karas, Vladimír

Subjects

Astrophysics - High Energy Astrophysical Phenomena, General Relativity and Quantum Cosmology

Abstract

The four characteristic oscillation frequencies of accretion flows are, in addition to the Keplerian orbital frequency, often discussed in the context of the time variability of the black hole and neutron star (NS) low-mass X-ray binaries (LMXBs). These are namely the frequencies of the axisymmetric radial and vertical epicyclic oscillations, and the frequencies of non-axisymmetric oscillations corresponding to the periastron (radial) and Lense-Thirring (vertical) precessions. In this context, we investigate the effect of the quadrupole moment of a slowly rotating NS and provide complete formulae for calculating these oscillation and precession frequencies, as well as their convenient approximations. Simple formulae corresponding to the geodesic limit of a slender torus (and test particle motion) and the limit of a marginally overflowing torus (torus exhibiting a critical cusp) are presented, and furthermore, more general approximate formulae are included to allow calculations for arbitrarily thick tori. We provide the Wolfram Mathematica code used for our calculations together with C++ and PYTHON codes for calculations of the frequencies. Our formulae can be used for various calculations describing the astrophysical signatures of the NSs' superdense matter equation of state. For instance, we demonstrate that, even for a given fixed number of free parameters, a model accounting for fluid flow precession better matches the frequencies of twin-peak quasiperiodic oscillations observed in NS LMXBs than a model using geodesic precession., Comment: 20 pages, 15 figures, accepted for publication in A&A. Extended discussion on the influence of the fluid polytropic index and the precession frequencies

Published

2024

4. Oscillations of Fluid Tori around Neutron Stars

Author

Šrámková, Eva, Matuszková, Monika, Klimovičová, Kateřina, Horák, Jiři, Straub, Odele, Urbancová, Gabriela, Urbanec, Martin, Karas, Vladimír, Török, Gabriel, and Lančová, Debora

Subjects

Astrophysics - High Energy Astrophysical Phenomena, General Relativity and Quantum Cosmology

Abstract

We examine the influence of quadrupole moment of a slowly rotating neutron star (NS) on the oscillations of a fluid accretion disk (torus) orbiting a compact object the spacetime around which is described by the Hartle-Thorne geometry. Explicit formulae for non-geodesic orbital epicyclic and precession frequencies, as well as their simplified practical versions that allow for an expeditious application of the universal relations determining the NS properties, are obtained and examined. We demonstrate that the difference in the accretion disk precession frequencies for NSs of the same mass and angular momentum, but different oblateness, can reach up to tens of percent. Even higher differences can arise when NSs with the same mass and rotational frequency, but different equations of state (EoS), are considered. In particular, the Lense-Thirring precession frequency defined in the innermost parts of the accretion region can differ by more than one order of magnitude across NSs with different EoS. Our results have clear implications for models of the LMXBs variability., Comment: Proceeding of IWARA 2022 (Astronomische Nachrichten), 4 pages, 2 figures

Published

2023

5. Oscillations of non-slender tori in the external Hartle-Thorne geometry

Author

Matuszková, Monika, Klimovičová, Kateřina, Urbancová, Gabriela, Lančová, Debora, Šrámková, Eva, and Török, Gabriel

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

We examine the influence of the quadrupole moment of a slowly rotating neutron star on the oscillations of non-slender accretion tori. We apply previously developed methods to perform analytical calculations of frequencies of the radial epicyclic mode of a torus in the specific case of the Hartle-Thorne geometry. We present here our preliminary results and provide a brief comparison between the calculated frequencies and the frequencies previously obtained assuming both standard and linearized Kerr geometry. Finally, we shortly discuss the consequences for models of high-frequency quasi-periodic oscillations observed in low-mass X-ray binaries., Comment: 17 pages, 6 figures

Published

2022

6. Simple analytic formula relating the mass and spin of accreting compact objects to their rapid X-ray variability

Author

Török, Gabriel, Kotrlová, Andrea, Matuszková, Monika, Klimovičová, Kateřina, Lančová, Debora, Urbancová, Gabriela, and Šrámková, Eva

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

Following the previous research on epicyclic oscillations of accretion disks around black holes (BHs) and neutron stars (NSs), a new model of high-frequency quasi-periodic oscillations (QPOs) has been proposed (CT model), which deals with oscillations of fluid in marginally overflowing accretion tori (i.e., tori terminated by cusps). According to preliminary investigations, the model provides better fits of the NS QPO data compared to the relativistic precession (RP) model. It also implies a significantly higher upper limit on the Galactic microquasars BH spin. A short analytic formula has been noticed to well reproduce the model's predictions on the QPO frequencies in Schwarzschild spacetimes. Here we derive an extended version of this formula that applies to rotating compact objects. We start with the consideration of Kerr spacetimes and derive a formula that is not restricted to a particular specific angular momentum distribution of the inner accretion flow, such as Keplerian or constant. Finally, we consider Hartle-Thorne spacetimes and include corrections implied by the NS oblateness. For a particular choice of a single parameter, our relation provides frequencies predicted by the CT model. For another value, it provides frequencies predicted by the RP model. We conclude that the formula is well applicable for rotating oblateness NSs and both models. We briefly illustrate application of our simple formula on several NS sources and confirm the expectation that the CT model is compatible with realistic values of the NS mass and provides better fits of data than the RP model., Comment: 9 pages, 5 figures, accepted for publication in The Astrophysical Journal

Published

2022

7. Wave-fronts of gravitational waves partially trapped in ultra-compact stars

Author

Abramowicz, Marek, Horák, Jiří, and Klimovičová, Kateřina

Subjects

General Relativity and Quantum Cosmology

Abstract

We dedicate this work to Dr Omer Blaes, professor of physics at UCSB, on the occasion of his sixtieth birthday. We have been collaborating now and then with Dr. Blaes on problems involving oscillations, waves and stability. Happy birthday, Omer. Enjoy the analytic treatment of damping of the gravitational waves trapped inside ultra compact stars and its possible connection to Quantum Gravity in the context of the LIGO-Virgo efforts in accurately measuring ringdowns and echoes., Comment: 4 pages, 3 figures, to appear in proceedings of "Recontres de Moriond on Gravitation 2021" conference

Published

2021

8. Accretion tori around rotating neutron stars -- Paper II: Oscillations and precessions

Author

Matuszková, Monika, Török, Gabriel, Klimovičová, Kateřina, Horák, Jiří, Straub, Odele, Šrámková, Eva, Lančová, Debora, Urbanec, Martin, Urbancová, Gabriela, Karas, Vladimír, Matuszková, Monika, Török, Gabriel, Klimovičová, Kateřina, Horák, Jiří, Straub, Odele, Šrámková, Eva, Lančová, Debora, Urbanec, Martin, Urbancová, Gabriela, and Karas, Vladimír

Abstract

The four characteristic oscillation frequencies of accretion flows are, in addition to the Keplerian orbital frequency, often discussed in the context of the time variability of the black hole and neutron star (NS) low-mass X-ray binaries (LMXBs). These are namely the frequencies of the axisymmetric radial and vertical epicyclic oscillations, and the frequencies of non-axisymmetric oscillations corresponding to the periastron (radial) and Lense-Thirring (vertical) precessions. In this context, we investigate the effect of the quadrupole moment of a slowly rotating NS and provide complete formulae for calculating these oscillation and precession frequencies, as well as their convenient approximations. Simple formulae corresponding to the geodesic limit of a slender torus (and test particle motion) and the limit of a marginally overflowing torus (torus exhibiting a critical cusp) are presented, and furthermore, more general approximate formulae are included to allow calculations for arbitrarily thick tori. We provide the Wolfram Mathematica code used for our calculations together with C++ and PYTHON codes for calculations of the frequencies. Our formulae can be used for various calculations describing the astrophysical signatures of the NSs' superdense matter equation of state. For instance, we demonstrate that, even for a given fixed number of free parameters, a model accounting for fluid flow precession better matches the frequencies of twin-peak quasiperiodic oscillations observed in NS LMXBs than a model using geodesic precession., Comment: 17 pages, 6 figures, submitted to A&A

Published

2024

9. Accretion tori around rotating neutron stars -- Paper I: Structure, shape and size

Author

Matuszková, Monika, Török, Gabriel, Lančová, Debora, Klimovičová, Kateřina, Horák, Jiří, Urbanec, Martin, Šrámková, Eva, Straub, Odele, Urbancová, Gabriela, Karas, Vladimír, Matuszková, Monika, Török, Gabriel, Lančová, Debora, Klimovičová, Kateřina, Horák, Jiří, Urbanec, Martin, Šrámková, Eva, Straub, Odele, Urbancová, Gabriela, and Karas, Vladimír

Abstract

We present a full general relativistic analytic solution for a radiation-pressure supported equilibrium fluid torus orbiting a rotating neutron star (NS). Previously developed analytical methods are thoroughly applied in the Hartle-Thorne geometry, including the effects of both the NS's angular momentum and quadrupole moment. The structure, size and shape of the torus are explored, focusing especially on the critically thick solution - the cusp tori. For the astrophysically relevant range of NS parameters, we examine how our findings differ from those obtained for the Schwarzschild spacetime. The solutions for rotating stars display signatures of the interplay between relativistic and Newtonian effects where the impact of NS angular momentum and quadrupole moment are almost counterbalanced at the given radius. Nevertheless, the spacetime parameters still strongly influence the size of tori, which can be shown in a coordinate-independent way. Finally, we discuss the importance of the size of the central neutron star, determining whether or not the surrounding torus may exist. We provide a set of tools in a Wolfram Mathematica code, which poses a basis allowing for a further investigation of the impact of the NSs' superdense matter equation of state on the spectral and temporal behaviour of accretion tori., Comment: 7 pages, 5 figures, submitted to A&A

Published

2024

10. Oscillations of fluid tori around neutron stars

Author

Šrámková, Eva, primary, Matuszková, Monika, additional, Klimovičová, Kateřina, additional, Horák, Jiři, additional, Straub, Odele, additional, Urbancová, Gabriela, additional, Urbanec, Martin, additional, Karas, Vladimír, additional, Török, Gabriel, additional, and Lančová, Debora, additional

Published

2022

11. Simple Analytic Formula Relating the Mass and Spin of Accreting Compact Objects to Their Rapid X-Ray Variability

Author

Török, Gabriel, primary, Kotrlová, Andrea, additional, Matuszková, Monika, additional, Klimovičová, Kateřina, additional, Lančová, Debora, additional, Urbancová, Gabriela, additional, and Šrámková, Eva, additional

Published

2022