95 research outputs found
Study of variable stars associated with maser sources: G025.65+1.05
We report variation of K-band infrared (IR) emission in the vicinity of the
G025.65+1.05 water and methanol maser source. New observational data were
obtained with 2.5m telescope of the Caucasian Mountain Observatory (CMO) of
Moscow State University on 2017-09-21 during the strong water maser flare. We
found that the IR source situated close to the maser position had decreased
brightness in comparison to archive data. This source is associated with a
massive young stellar object (MYSO) corresponding to the compact infrared
source IRAS 18316-0602 (RAFGL 7009S). Similar decrease in K-brightness of the
IR source close to the maser position was observed in March~2011 when the water
maser activity was increased. The dips in MYSO brightness can be related to the
maser flare phases. Maser flares that are concurrent with dips of the IR
emission can be explained if the lower IR radiation field enables more
efficient sink of the pumping cycle by allowing IR photons to escape the maser
region.Comment: Accepted for publication in RA
Analysis of the interstellar matter at the periphery of the supershell surrounding the CYG OB1 association in 2.12 micron molecular hydrogen line
We present observations of the vdB 130 cluster vicinity in a narrow-band
filter centered at a m molecular hydrogen line performed at the
Caucasus Mountain Observatory of the Lomonosov Moscow State University. The
observations reveal an H emission shell around vdB 130, coincident with a
bright infrared shell, visible in all \textit{Spitzer} bands. Also, numerous
H emission features are detected around infrared Blobs E and W and in the
vicinity of a protocluster located to the east of the shell, in a tail of a
cometary molecular cloud. H emission in the vicinity of the vdB~130 cluster
is mostly generated in well-developed \HII\ regions and is of fluorescent
nature. In the protocluster area, isolated spots are observed, where H
emission is collisionally excited and is probably related to shocks in
protostellar outflows. Obtained results are discussed in the context of
possible sequential star formation in the vicinity of the vdB 130 cluster,
triggered by the interaction of the expanding supershell surrounding the Cyg
OB1 association with the molecular cloud and an associated molecular filament.Comment: Accepted by Astrophysical Bulleti
- …