CO $\mathsf{J}=\mathsf{1}{-}0$ observations of gas near the galactic supernova remnants 
 G5.4-1.2, G5.55+0.32 and G5.71-0.08

Liszt, H. S.

doi:10.1051/0004-6361/200912421

Cited by 9 publications

(13 citation statements)

References 19 publications

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“…In this way we show the intrinsic velocity location and width of the gas without confusion. Based on the PV maps, it is clear that much of the NH 3 emission is found in the velocity range of ∼−5 to ∼20 km s −1 which is quite consistent with the molecular gas found in CO studies (Aharonian et al 2008b; Fukui et al 2008; Liszt 2009) towards the W28 region. The four satellite lines of NH 3 (1,1) are clearly visible towards most of the cores as colocated peaks with 7 and 19 km s −1 separation from the main line for the inner and outer satellite lines, respectively.…”

Section: Results Overviewsupporting

confidence: 83%

“…Core 5 appears to straddle the south‐east quadrant of the 8 μm IR shell or excitation ring of G5.89−0.39A and HESS J1800−240B, and is resolved into two components Core 5 NE and SW. Local peaks in CO emission overlapping Core 5 NE and SW are clearly visible [see Fig. 6 and also Liszt (2009) and Kim & Koo (2003)]. Core 5 NE is the coldest of the cores detected with T k ∼ 12 K. Here we detect only NH 3 (1,1) emission in mapping, and only very weak (2,2) and (3,3) emission in the deep spectra.…”

Section: Detailed Discussion Of Coressupporting

confidence: 48%

“…Core 5 appears to straddle the south-east quadrant of the 8 μm IR shell or excitation ring of G5.89−0.39A and HESS J1800−240B, and is resolved into two components Core 5 NE and SW. Local peaks in CO emission overlapping Core 5 NE and SW are clearly visible [see Fig. 6 and also Liszt (2009) and Kim & Koo (2003)].…”

Section: Triple Core and Corementioning

confidence: 99%

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12 mm line survey of the dense molecular gas towards the W28 field TeV gamma-ray sources

Nicholas

Rowell

Burton

et al. 2010

Monthly Notices of the Royal Astronomical Society

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We present 12 mm Mopra observations of dense molecular gas towards the W28 supernova remnant (SNR) field. The focus is on the dense molecular gas towards the TeV gamma‐ray sources detected by the HESS telescopes, which likely trace the cosmic rays from W28 and possibly other sources in the region. Using the NH3 inversion transitions we reveal several dense cores inside the molecular clouds, the majority of which coincide with high‐mass star formation and H ii regions, including the energetic ultracompact H ii region G5.89−0.39. A key exception to this is the cloud north‐east of W28, which is well known to be disrupted as evidenced by clusters of 1720 MHz OH masers and broad CO line emission. Here we detect broad NH3, up to the (9,9) transition, with linewidths up to 16 km s−1. This broad NH3 emission spatially matches well with the TeV source HESS J1801−233 and CO emission, and its velocity dispersion distribution suggests external disruption from the W28 SNR direction. Other lines are detected, such as HC3N and HC5N, H2O masers, and many radio recombination lines, all of which are primarily found towards the southern high‐mass star formation regions. These observations provide a new view on to the internal structures and dynamics of the dense molecular gas towards the W28 SNR field and, in tandem with future higher‐resolution TeV gamma‐ray observations, will offer the chance to probe the transport of cosmic rays into molecular clouds.

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Section: Results Overviewsupporting

confidence: 83%

Section: Detailed Discussion Of Coressupporting

confidence: 48%

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12 mm line survey of the dense molecular gas towards the W28 field TeV gamma-ray sources

Nicholas

Rowell

Burton

et al. 2010

Monthly Notices of the Royal Astronomical Society

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“…These effects are usually more severe in lower energy transitions where line emission from quiescent clouds is intrinsically broad. Indeed, both of the BML non-detections in Table 3 were performed in 12 CO J = 1 − 0 and toward SNRs near the Galactic Center (G5.4-1.2, G5.7-0.0) (Liszt 2009). Observations in higher energy transitions might show less emission from quiescent clouds along the line-of-sight while revealing broad-line emission.…”

Section: To What Extent Are Snr-mc Interactionsmentioning

confidence: 99%

A Systematic Survey for Broadened Co Emission Toward Galactic Supernova Remnants

Kilpatrick

Bieging

Rieke

2015

ApJ

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We report on a 95 GHz (8 0 − 7 1 A +) methanol (CH 3 OH) emission survey with the Purple Mountain Observatory Delingha 13.7 m telescope. Eight supernova remnants (SNRs) with angular size 10 ′ were observed, but emission was only detected in three SNRs near the Galactic center (Sgr A East, G 0.1-0.1, and G 359.92-0.09). CH 3 OH emission mainly surrounds the SNRs and can be decomposed into nine spatial peaks with velocity range of eight peaks being (-30, 70) km s −1 , and the other (70, 120) km s −1. They are probably excited by interaction with these SNRs and adjacent molecular gas in the central molecular zone (CMZ), although star formation may play an important role in exciting CH 3 OH emission in some regions of CMZ. We infer that tidal action is unlikely to be an excitation source for CH 3 OH emission.

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“…Millimeter observations provide direct, unambiguous evidence of interaction when a broad (>10 km s −1 ) line caused by dynamic motion of shocked gas is detected. There has been a long-term effort to search for interactions with clouds using millimeter observations (Huang & Thaddeus 1986;Liszt 2009;Jeong et al 2013;Zhou & Chen 2011). However, detection of broad CO lines is still limited to a half-dozen SNRs.…”

Section: Introductionmentioning

confidence: 99%

Discovery of Broad Molecular Lines and of Shocked Molecular Hydrogen From the Supernova Remnant G357.7+0.3: Hhsmt, Apex, Spitzer, and Sofia Observations

Rho

Hewitt

Bieging

et al. 2016

ApJ

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We report a discovery of shocked gas from the supernova remnant (SNR) G357.7+0.3. Our millimeter and submillimeter observations reveal broad molecular lines of CO(2-1), CO(3-2), CO(4-3), 13 CO (2-1), and 13 CO (3-2), HCO + , and HCN using the Heinrich Hertz Submillimeter Telescope, the Arizona 12 m Telescope, APEX, and the MOPRA Telescope. The widths of the broad lines are 15-30 km s −1 , and the detection of such broad lines is unambiguous, dynamic evidence showing that the SNR G357.7+0.3 is interacting with molecular clouds. The broad lines appear in extended regions (>4 5 × 5′). We also present the detection of shocked H 2 emission in the mid-infrared but lacking ionic lines using Spitzer/IRS observations to map a few-arcminute area.The H 2 excitation diagram shows a best fit with a two-temperature local thermal equilibrium model with the temperatures of ∼200 and 660 K. We observed [C II] at 158 μm and high-J CO(11-10) with the German Receiver for Astronomy at Terahertz Frequencies (GREAT) on the Stratospheric Observatory for Infrared Astronomy. The GREAT spectrum of [C II], a 3σ detection, shows a broad line profile with a width of 15.7 km −1 that is similar to those of broad CO molecular lines. The line width of [C II] implies that ionic lines can come from a low-velocity C-shock. Comparison of H 2 emission with shock models shows that a combination of two C-shock models is favored over a combination of C-and J-shocks or a single shock. We estimate the CO density, column density, and temperature using a RADEX model. The best-fit model with n(H 2 )=1.7×10 4 cm −3 , N(CO)=5.6×10 16 cm −2 , and T=75 K can reproduce the observed millimeter CO brightnesses.

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CO $\mathsf{J}=\mathsf{1}{-}0$ observations of gas near the galactic supernova remnants G5.4-1.2, G5.55+0.32 and G5.71-0.08

Cited by 9 publications

References 19 publications

12 mm line survey of the dense molecular gas towards the W28 field TeV gamma-ray sources

12 mm line survey of the dense molecular gas towards the W28 field TeV gamma-ray sources

A Systematic Survey for Broadened Co Emission Toward Galactic Supernova Remnants

Discovery of Broad Molecular Lines and of Shocked Molecular Hydrogen From the Supernova Remnant G357.7+0.3: Hhsmt, Apex, Spitzer, and Sofia Observations

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