M. J. Gaylard scite author profile

The class II methanol maser source G9.62+0.20E undergoes periodic flares at both 6.7 and 12.2 GHz. The flare starting in 2001 October was observed at seven epochs over three months using the Very Long Baseline Array (VLBA) at 12.2 GHz. High angular resolution images (beam size ∼1.7 × 0.6 mas) were obtained, enabling us to observe changes in 16 individual maser components. It was found that while existing maser spots increased in flux density, no new spots developed and no changes in morphology were observed. This rules out any mechanism which disturbs the masing region itself, implying that the flares are caused by a change in either the seed or pump photon levels. A time delay of one to two weeks was observed between groups of maser features. These delays can be explained by light travel time between maser groups. The regularity of the flares can possibly be explained by a binary system.

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Variable hydroxyl and methanol masers in G 351.78 -- 0.54

MacLeod¹,

Gaylard²

1996

Monthly Notices of the Royal Astronomical Society

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A search for 51–60 A+ -methanol masers towards faint IRAS sources

Walt¹,

Retief²,

Gaylard³

et al. 1996

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Discovery of periodic class II methanol masers associated with G339.986−0.425 region

Maswanganye

Walt

Goedhart

et al. 2016

Mon. Not. R. Astron. Soc.

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Ten new class II methanol masers from the 6.7-GHz Methanol Multibeam survey catalogues III and IV were selected for a monitoring programme at both 6.7 and 12.2 GHz with the 26m Hartebeesthoek Radio Astronomy Observatory (HartRAO) radio telescope for two years and nine months, from August 2012 to May 2015. In the sample, only masers associated with G339.986-0.425 were found to show periodic variability at both 6.7 and 12.2 GHz. The existence of periodic variation was tested with four independent methods. The analytical method gave the best estimation of the period, which was 246 ± 1 days. The time series of G339.986-0.425 show strong correlations across velocity channels and between the 6.7 and 12.2 GHz masers. The time delay was also measured across channels and shows structure across the spectrum which is continuous between different maser components.

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How do methanol masers manage to appear in the youngest star vicinities and isolated molecular clumps?

Sobolev¹,

Cragg²,

Ellingsen³

et al. 2007

Proc. IAU

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Abstract. General characteristics of methanol (CH3 OH) maser emission are summarized. It is shown that methanol maser sources are concentrated in the spiral arms. Most of the methanol maser sources from the Perseus arm are associated with embedded stellar clusters and a considerable portion is situated close to compact Hii regions. Almost 1/3 of the Perseus Arm sources lie at the edges of optically identified Hii regions which means that massive star formation in the Perseus Arm is to a great extent triggered by local phenomena. A multiline analysis of the methanol masers allows us to determine the physical parameters in the regions of maser formation. Maser modelling shows that class II methanol masers can be pumped by the radiation of the warm dust as well as by free-free emission of a hypercompact region (hcHii) with a turnover frequency exceeding 100 GHz. Methanol masers of both classes can reside in the vicinity of hcHiis. Modelling shows that periodic changes of maser fluxes can be reproduced by variations of the dust temperature by a few percent which may be caused by variations in the brightness of the central young stellar object reflecting the character of the accretion process. Sensitive observations have shown that the masers with low flux densities can still have considerable amplification factors. The analysis of class I maser surveys allows us to identify four distinct regimes that differ by the series of their brightest lines.

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M. J. Gaylard

Very Long Baseline Array imaging of a periodic 12.2-GHz methanol maser flare in G9.62+0.20E

Variable hydroxyl and methanol masers in G 351.78 -- 0.54

A search for 51–60 A+ -methanol masers towards faint IRAS sources

Discovery of periodic class II methanol masers associated with G339.986−0.425 region

How do methanol masers manage to appear in the youngest star vicinities and isolated molecular clumps?

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