| Canonical Name: | HESS J1848-018 |
| TeVCat Name: | TeV J1848-017 |
| Other Names: | WR121a/W43 1HWC J1849-017c 2HWC J1847-018 1LHAASO J1848-0153u |
| Source Type: | Massive Star Cluster |
| R.A.: | 18 48 29 (hh mm ss) |
| Dec.: | -01 47 32.3 (dd mm ss) |
| Gal Long: | 31.00 (deg) |
| Gal Lat: | -0.16 (deg) |
| Distance: | 5.3 kpc |
| Flux: | 0.02 (Crab Units) |
| Energy Threshold: | 1000 GeV |
| Spectral Index: | 2.8 |
| Extended: | Yes |
| Size (X): | 0.32 (deg) |
| Size (Y): | 0.32 (deg) |
| Discovery Date: | 2008-07 |
| Discovered By: | H.E.S.S. |
| TeVCat SubCat: | Default Catalog |
| H.E.S.S. Galactic Plane Survey (HGPS, 2018): | |
| A selection of information for each of the 78 sources in the HGPS is provided in TeVCat. For full details, visit the HGPS website. |
| Name: | HESS J1848-018 | |
| Source Class: | Unid | |
| Identified Object: | None | |
| R.A. (J2000): | 282.12 deg (18 48 29) | |
| Dec. (J2000): | -1.89 deg (-01 53 14) | |
| Positional uncertainty: | 0.076 deg | |
| Spatial Model: | Gaussian | |
| Size: | 0.248 +/- 0.032 deg | |
| Spectral Model: | power law | |
| Integral Flux > 1 TeV: | 1.11e-12 +/- 1.53e-13 cm-2 s-1 | |
| Pivot Energy, E0: | 0.87 TeV | |
| Diff. Flux at E0: | 2.51e-12 +/- 2.64e-13 cm-2 s-1 TeV-1 | |
| Spectral Index: | 2.57 +/- 0.11 | |
| HGPS Source Notes: | ||
The following is the text from the HGPS paper:
For the new source HESS J1848-018 preliminary H.E.S.S. source properties were previously shown (Chaves et al. 2008). These properties are compatible with the HGPS results except for the source size and flux; these were overestimated because the earlier analysis did not include a model for the diffuse emission, which is particularly bright in this region.
The origin of the VHE gamma-ray emission of HESS J1848-018 is not yet firmly identified. No SNR or energetic pulsar is currently detected in the proximity, although we have associated the VHE source with 3FGL J1848.4-0141 (Acero et al. (2015). This unidentified HE gamma-ray point source is significantly offset from the VHE gamma-ray centroid (by approximately 0.2 deg) but well within the VHE emission region. Studies attempting to relate the HE with the (preliminary) VHE morphology and spectra remained inconclusive (Tam et al. 2010; Acero et al. 2013). A potential PSR and PWN scenario cannot be confirmed due to the lack of a detected pulsar (at any wavelength), although the HE spectrum does exhibit curvature typical of pulsars (Acero et al. 2015). Furthermore, there is no known PWN nearby, although one study has shown marginal statistical evidence for an extension of the HE source (Lemoine-Goumard et al. 2011), which is expected if the HE emission is from a PWN or the combination of a pulsar and PWN.
An extensive search for other MWL counterparts found the VHE gamma-ray emission to be in the direction of the massive star-forming region W 43, a very active mini-starburst located at a distance of 6.2 +/- 0.6 kpc (Russeil 2003). It is one of the closest and most luminous star-forming regions in the Galaxy (Motte et al. 2003), hosting a giant H II region (G30.8-0.2), a giant molecular cloud, and the Wolf-Rayet binary star system WR 121a in the central stellar cluster together with O-type stars. The massive stars in the dense central cluster exhibit strong stellar winds with extreme mass loss rates, in particular the WN7-subtype WR 121a (Blum et al. 1999).
This unique MWL environment is of interest because the central cluster of W 43 could be the site of efficient particle acceleration in various plausible hadronic scenarios involving the high-velocity (up to 2000 km s-1 ) stellar winds (e.g., Reimer et al. 2006; Romero 2010). Furthermore, the very large amount of molecular gas present in W 43 (approx. 7×106 M_sun Nguyen Luong et al. 2011) provides a natural target for accelerated cosmic rays (regardless of their potential acceleration site), which would lead to gamma-ray production via hadronic p-p collisions (e.g., Aharonian 1991).
It is not yet possible to confirm the W 43 hadronic scenario for the origin of the VHE emission, in part because of the very complex morphologies present and the challenges in correlating features observed in radio and infrared observations at arcsecond scales with the approx. 5 arcsecond resolution in VHE. The VHE centroid, in particular, is significantly offset from the central cluster by approximately 0.2 deg, although the extended VHE emission is generally coincident with the W 43 complex. This scenario remains under investigation, especially in light of the recent detection of the superbubble 30 Dor C in the LMC (H.E.S.S. Collaboration 2015), which suggests that particle acceleration occurring in the collective winds of massive stars can indeed produce VHE emission.
Two possible associations are listed in Table A.9. "This is a list of astronomical objects, extracted from catalogs of plausible counterparts, which are are found to be spatially coincident with the HGPS source":
- 3FGL J1848.4-0141 (3FGL)
- W43 (EXTRA)
"EXTRA associations: For completeness, in addition to the associations obtained through the catalog-based, automatic procedure, we add a list of 20 extra associated objects that are plausible counterparts for some HGPS sources and are not covered by the limited set of catalogs we use."