Investigating the origin of the faint non-thermal emission of the Arches cluster using the 2015–2016 NuSTAR and XMM–Newton X-ray observations

A. Lutovinov

doi:10.1093/mnras/stz119

Publications

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Investigating the origin of the faint non-thermal emission of the Arches cluster using the 2015–2016 NuSTAR and XMM–Newton X-ray observations

Monthly Notices of the Royal Astronomical Society. 2019. Vol. 484. No. 2. P. 1627–1636.

Lutovinov A.

Recent NuSTAR and XMM–Newton observations of the molecular cloud around the Arches
stellar cluster demonstrate a dramatic change both in morphology and intensity of its nonthermal
X-ray emission, similar to that observed in many molecular clouds of the Central
Molecular Zone at the Galactic Center. These variations trace the propagation of illuminating
fronts, presumably induced by past flaring activities of SgrA. In this paper, we present results
of a long NuSTAR observation of the Arches complex in 2016, taken a year after the previous
XMM+NuSTAR observations which revealed a strong decline in the cloud emission. The 2016
NuSTAR observation shows that both the non-thermal continuum emission and the Fe Kα
6.4 keV line flux are consistent with the level measured in 2015. No significant variation has
been detected in both spectral shape and Fe Kα equivalent width EW6.4 keV, which may be
interpreted as the intensity of the Arches non-thermal emission reaching its stationary level.
At the same time, the measured 2016 non-thermal flux is not formally in disagreement with
the declining trend observed in 2007–2015. Thus, we cannot assess whether the non-thermal
emission has reached a stationary level in 2016, and new observations, separated by a longer
time period, are needed to draw stringent conclusions. Detailed spectral analysis of three bright
clumps of the Arches molecular cloud performed for the first time showed different EW6.4 keV
and absorption. This is a strong hint that the X-ray emission from the molecular cloud is a mix
of two components with different origins.

Research target: Physics

Keywords: X-rays clouds interstellar medium

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In regards to the advances in InGaZnO for flexible transistors applications, herein for the first time we measure the broadband radio-frequency range (10 Hz to 1 MHz) dielectric permittivity ε′ and electrical conductivity σ of InGaZnO4 nanoparticle layers at different temperatures ranging from 10 to 300 K. The InGaZnO4 nanoparticles prepared by metal–nitrate–glycol gel decomposition method exhibited ...

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Overheating remains a critical limitation in high-performance electronic and computing systems, necessitating the development of efficient thermal management fluids. In this work, a magnetically responsive hybrid ferrofluid was developed by incorporating two-dimensional hexagonal boron nitride (2D-hBN) nanosheets into a Mn–Zn–ferrite-based ferrofluid. The hybrid system retains magnetic responsiveness while leveraging the high in-plane thermal conductivity and chemical stability of 2D-hBN nanosheets. ...

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The τ-phase in Mn-Al-Ga alloys is a promising candidate for rare-earth-free permanent magnets. This study re-veals that the τ(γ₂)-phase in rapidly quenched Mn55Al36Ga9 ribbons contains a high density of dislocations, which form antiphase boundaries (APBs). Using transmission electron microscopy and density functional theory, we demonstrate that Mn atoms at these APBs couple antiferromagnetically. This antiferromagnetic interaction is identified ...

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Dikhtievskaya K., Argunov E., Alexey I. Kartsev et al., The Journal of Physical Chemistry Letters 2026 Vol. 17 No. 17 P. 4999–5004

In this study we revealed the effect of scandium doping on the electronic and superconducting properties of the MgB2 compound. Calculations demonstrate that Sc substitutes for Mg atoms, acting as an electron donor. Mg substitution diminishes the density of states in the σ-band and attenuates the electron–phonon coupling, thereby elucidating the reduction in critical temperature. Simultaneously, ...

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Ceramic superconductors exhibit remarkable properties, including zero electrical resistance and potent magnetic behavior, operating at temperatures as high as the boiling points of liquid nitrogen (77 K) and liquid hydrogen (20 K). These characteristics position them as key enablers for sustainable technologies spanning electric propulsion, lossless energy transmission, advanced medical imaging, and quantum computation. This review presents ...

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Resonators based on nanoelectromechanical systems (NEMS) using two-dimensional (2D) materials with high-quality factors and excellent electrical control are critical for tunable coherent phonon dynamics, resonant sensors and wireless communications. However, their performance is fundamentally limited by the lack of a unified framework governing energy dissipation mechanisms and their electrical tunability. Here, we synergistically modulate both ...

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Elesin L., Shilov A., Jana S. et al., Advanced Functional Materials 2026 P. 1–10

Thermoelectric materials, long explored for energy harvesting and thermal sensing, convert heat directly into electrical signals. Extending their application to the terahertz (THz) frequency range opens opportunities for low-noise, bias-free THz detection, yet conventional thermoelectrics lack the sensitivity required for practical devices. Thermoelectric coefficients can be strongly enhanced near van Hove singularities (VHS), though these ...

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A. V. Titova, S. D. Korolkov, V. V. Izmodenov, Lobachevskii Journal of Mathematics 2025 Vol. 46 No. 9 P. 4526–4533

The stability of the heliopause, the tangential discontinuity separating the solar wind from the interstellar medium, is influenced by various processes, including the Kelvin–Helmholtz instability. This study investigates the role of charge exchange collisions between protons and hydrogen (H) atoms in reduction of the Kelvin–Helmholtz growth rate at the heliopause. Using a two-dimensional gasdynamic model ...

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Sergey Korolkov, Vladislav Izmodenov, Publications of the Astronomical Society of Australia 2025 Vol. 42 Article e123

Recently, there have been discussions about the shape of the heliopause. Some scientists question the classical form, which is close to a paraboloid. They suggest that the heliopause may have a two-jet collimated shape. While we disagree with this view of the heliopause shape, it seems likely that for stars with stronger stellar magnetic fields ...

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A.V. Titova, V.V. Izmodenov, S.D. Korolkov, Publications of the Astronomical Society of Australia 2025 Vol. 42 Article e045

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Ranjan A., Noterdaeme P., Krogager J. -. et al., Astronomy and Astrophysics 2020 Vol. 633 Article A125

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Balashev S., Kosenko D. N., Monthly Notices of the Royal Astronomical Society: Letters 2020 Vol. 492 No. 1 P. 45–49

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Klimenko V. V., Balashev S., Monthly Notices of the Royal Astronomical Society 2020 Vol. 498 No. 2 P. 1531–1549

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Hydroxyl (OHOH) is known to form efficiently in cold gas (T ~ 100 K) along with the molecule H2H2 and can be used as an efficient tracer of the diffuse molecular gas in the interstellar medium (ISM). Using a simple formalism describing the HI/H2HI/H2 transition and a reduced network of major chemical reactions, we present a semi-analytical prescription to ...

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Ages and thermal luminosities of neutron stars, inferred from observations, can be interpreted with the aid of the neutron star cooling theory to gain information on the properties of superdense matter in neutron-star interiors. We present a survey of estimated ages, surface temperatures, and thermal luminosities of middle-aged neutron stars with relatively weak or moderately ...

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