Revisiting the abundance pattern and charge-exchange emission in the centre of M 82

Fukushima, K.; Kobayashi, S. B.; Matsushita, K.

doi:10.1051/0004-6361/202349064

A&A

2024

DOI: 10.1051/0004-6361/202349064

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Revisiting the abundance pattern and charge-exchange emission in the centre of M 82

K. Fukushima,

S. B. Kobayashi,

K. Matsushita

Abstract: The interstellar medium (ISM) in starburst galaxies contains many chemical elements that are synthesised by core-collapse supernova explosions. By measuring the abundances of these metals, we can study the chemical enrichment within the galaxies and the transportation of metals into the circumgalactic environment through powerful outflows. We performed a spectral analysis of the X-ray emissions from the core of M82 using the Reflection Grating Spectrometer (RGS) on board XMM-Newton to accurately estimate the m… Show more

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2024

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Evidence for a Fast Soft X-Ray Wind in M82 from XMM-RGS

Boettcher,

Hodges-Kluck

2024

ApJ

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Starburst wind models predict that metals and energy are primarily carried out of the disk by hot gas (T > 106 K), but the low energy resolution of X-ray CCD observations results in large uncertainties on the mass and energy loading. Here, we present evidence for a fast soft X-ray wind from the prototypical starburst galaxy M82 using deep archival observations from the Reflection Grating Spectrometer on XMM-Newton. After characterizing the complex line-spread function for the spatially extended outflow ( ≈ 4 ′ ), we perform emission-line fitting to measure the velocity dispersion, σ v , from O viii (0.65, 0.77 keV), Ne x (1.02 keV), and Mg xii (1.47 keV). For the T ≈ 3 × 106 K gas, O viii yields a velocity dispersion of σ v = 1160 − 90 + 100 km s−1, implying a wind speed that is significantly above the escape velocity (v esc ≲ 450 km s−1). Ne x ( σ v = 550 − 150 + 130 km s−1) and Mg xii (σ v < 370 km s−1) show less velocity broadening than O viii, hinting at a lower wind speed or smaller opening angle on the more compact spatial scales traced by the T ≈ (0.6−1) × 107 K gas. Alternatively, these higher energy emission lines may be dominated by shock-heated gas in the interstellar medium. Future synthesis of these measurements with performance verification observations of the E = 2−12 keV wind in M82 from the Resolve microcalorimeter on the X-ray Imaging and Spectroscopy Mission will inform the phase structure and energy budget of the hot starburst wind.

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Evidence for a Fast Soft X-Ray Wind in M82 from XMM-RGS

Boettcher,

Hodges-Kluck

2024

ApJ

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Revisiting the abundance pattern and charge-exchange emission in the centre of M 82

Cited by 1 publication

References 59 publications

Evidence for a Fast Soft X-Ray Wind in M82 from XMM-RGS

Evidence for a Fast Soft X-Ray Wind in M82 from XMM-RGS

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