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In the last decade, many new star clusters have been discovered in heavily obscured regions of the Milky Way bulge and disk. Our primary long-term objective is to seek out additional star clusters in the poorly studied regions of the Milky Way, where detections pose significant challenges. The aim of this pursuit is to finalize the Milky Way's globular and open cluster system census and to gain a comprehensive understanding of both the formation and evolution of these systems and our Galaxy as a whole. We report the discovery of a new star cluster, named Garro 03. We investigated this new target using a combination of near-infrared and optical databases. We employed the VISTA Variables in the Via Láctea Survey and Two Micron All Sky Survey data in the near-infrared, and the Gaia Data Release 3 and the DECam Plane Survey datasets in the optical passband. We constructed density maps and vector proper motion diagrams in order to highlight our target. We performed a photometrical analysis in order to derive its main physical parameters. Garro 03 is located at equatorial coordinates RA = 14:01:29.3 and Dec = $-$65:30:57.0. From our photometric analysis we find that this cluster is not heavily affected by extinction with $A_ Ks 0.04$ mag and $A_G = 1.54 0.02$ mag. It is located at heliocentric distance of $14.1 kpc, which places Garro 03 at $10.6$ kpc from the Galactic centre and Z = $-0.89$ kpc below the Galactic plane. We also calculated the mean cluster proper motion of ($ alpha ast delta 0.27$) mas $. We derived an age of 3 Gyr and metallicity Fe/H 0.2$ by the isochrone-fitting method, employing the PARSEC models. The total luminosity was derived in the $K_s$ and V bands, finding Ks 1.10$ mag and $M_V =-4.06$ mag. Finally, the core and tidal radii were measured constructing the Garro 03 radial density profile and fitting the King model. We obtained $r_c = 3.07 0.98$ pc and $r_t = 19.36 15.96$ pc, respectively. We photometrically confirm the cluster nature for Garro 03, located in the Galactic disk. It is a distant, low-luminosity, metal-rich star cluster of intermediate age. We also searched for possible signatures (streams or bridges) between Garro 03 and Garro 01, but we exclude a companionship with the present analysis. We need spectroscopic data to classify it as an old open cluster or a young globular cluster, and to understand its origin
In the last decade, many new star clusters have been discovered in heavily obscured regions of the Milky Way bulge and disk. Our primary long-term objective is to seek out additional star clusters in the poorly studied regions of the Milky Way, where detections pose significant challenges. The aim of this pursuit is to finalize the Milky Way's globular and open cluster system census and to gain a comprehensive understanding of both the formation and evolution of these systems and our Galaxy as a whole. We report the discovery of a new star cluster, named Garro 03. We investigated this new target using a combination of near-infrared and optical databases. We employed the VISTA Variables in the Via Láctea Survey and Two Micron All Sky Survey data in the near-infrared, and the Gaia Data Release 3 and the DECam Plane Survey datasets in the optical passband. We constructed density maps and vector proper motion diagrams in order to highlight our target. We performed a photometrical analysis in order to derive its main physical parameters. Garro 03 is located at equatorial coordinates RA = 14:01:29.3 and Dec = $-$65:30:57.0. From our photometric analysis we find that this cluster is not heavily affected by extinction with $A_ Ks 0.04$ mag and $A_G = 1.54 0.02$ mag. It is located at heliocentric distance of $14.1 kpc, which places Garro 03 at $10.6$ kpc from the Galactic centre and Z = $-0.89$ kpc below the Galactic plane. We also calculated the mean cluster proper motion of ($ alpha ast delta 0.27$) mas $. We derived an age of 3 Gyr and metallicity Fe/H 0.2$ by the isochrone-fitting method, employing the PARSEC models. The total luminosity was derived in the $K_s$ and V bands, finding Ks 1.10$ mag and $M_V =-4.06$ mag. Finally, the core and tidal radii were measured constructing the Garro 03 radial density profile and fitting the King model. We obtained $r_c = 3.07 0.98$ pc and $r_t = 19.36 15.96$ pc, respectively. We photometrically confirm the cluster nature for Garro 03, located in the Galactic disk. It is a distant, low-luminosity, metal-rich star cluster of intermediate age. We also searched for possible signatures (streams or bridges) between Garro 03 and Garro 01, but we exclude a companionship with the present analysis. We need spectroscopic data to classify it as an old open cluster or a young globular cluster, and to understand its origin
Milky Way star clusters provide important clues about the history of star formation in our Galaxy. However, the dust in the disk and in the innermost regions hides them from the observers. Our goal is twofold. First, to detect new clusters -- we have applied the newest methods of detecting clusters with the best available wide-field sky surveys in the mid-infrared because they are the least affected by extinction. Second, we address the question of cluster detection's completeness, for now limiting it to the most massive star clusters. This search is based on the mid-infrared Galactic Legacy Infrared Mid-Plane Survey Extraordinaire (GLIMPSE), to minimize the effect of dust extinction. The search Ordering Points To Identify the Clustering Structure (OPTICS) clustering algorithm was applied to identify clusters, after excluding the bluest, presumably foreground sources, to improve the cluster-to-field contrast. The success rate for cluster identification was estimated with a semi-empirical simulation that adds clusters, based on the real objects, to the point source catalog, to be recovered later with the same search algorithm that was used in the search for new cluster candidates. As a first step, this was limited to the most massive star clusters with a total mass of sim 10$^4$\,M$_ odot$. Our automated search, combined with inspection of the color-magnitude diagrams and images, yielded 659 cluster candidates; 106 of these appear to have been previously identified, suggesting that a large hidden population of star clusters still exists in the inner Milky Way. However, the search for the simulated supermassive clusters achieves a recovery rate of 70-95\,<!PCT!>, depending on the distance and extinction toward them. The new candidates -- if confirmed -- indicate that the Milky Way still harbors a sizeable population of unknown clusters. However, they must be objects of modest richness, because our simulation indicates that there is no substantial hidden population of supermassive clusters in the central region of our Galaxy.
The accretion luminosity of an FU Ori disk is a fundamental system parameter, but a challenging one to estimate for all but the most well-studied systems. FU Ori objects are dynamically evolving accretion disks, especially close in time to the outburst epoch. They have a complex multitemperature disk structure that results in distinctly shaped, broad spectral energy distributions (SEDs). Detailed spectroscopic analysis is required for simultaneous constraint on relevant physical parameters such as the central stellar mass, inner disk radius, disk inclination, and disk accretion rate. However, outbursting systems that are deeply embedded and/or distant may be limited to only photometric measurement and over only a narrow range of wavelengths. The bolometric corrections necessary to estimate accretion luminosities are not straightforward and in particular cannot be adopted from existing literature on isotropically radiating stars. We present bolometric corrections specific to astrophysical accretion disks for a variety of filters in ongoing and upcoming all-sky surveys.
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