Abstract
This study provides a thorough investigation of the open cluster Czernik 38, employing photometric and astrometric data from Gaia DR3 and 2MASS. Our analysis refines the fundamental parameters of the cluster, including its structure, kinematics, evolutionary status, age, and morphology. To evaluate membership, we utilized the pyUPMASK Python package in conjunction with the HDBSCAN algorithm. The main focus of this research is our novel method of assigning a membership probability at each radius, instead of using a singular value for the entire cluster. One of the main outcomes of our research indicates that there is an elongated structure and a leading tidal tail that aligns with the orbital trajectory of the cluster. This tidal phenomenon arises due to orbital differential rotation. Furthermore, we have discovered a new star cluster located 32 arcmin from the center of Czernik. This cluster may serve as a companion to the Czernik 38 cluster in a binary cluster system or a complex colliding system; we will explore this further in subsequent research. According to Gaia, the distance modulus of the cluster and the color excess [Formula: see text] are measured at 12.69[Formula: see text] 0.08 mag and 2.40 [Formula: see text] 0.04 mas, respectively. Additionally, from 2Mass, the distance modulus is 12.87 [Formula: see text] 0.93 mag, while the color excess [Formula: see text] is 0.89 [Formula: see text] 0.2 mag. Moreover, the cluster age is determined to be 115.0[Formula: see text] 20.3 Myr. The components of proper motion ([Formula: see text], [Formula: see text]) and the parallax ([Formula: see text]) are found as -2.41 [Formula: see text] 0.328 mas yr[Formula: see text], -5.263 [Formula: see text] 1.063 mas yr[Formula: see text], and 0.21 [Formula: see text] 0.083 mas, respectively. The calculated mean Gaia distances are roughly 3580.4 [Formula: see text] 230.5 pc, which is in agreement with the photometric data from the Gaia and 2Mass data, within the error. There are 37 stars that exhibit radial velocity with average 46.1 [Formula: see text] 8.54[Formula: see text], which allows us to derive orbital parameters using the galpy python package. As a result, the cluster is moving parallel to the Galactic plane towards the Galactic center. We have identified a novel category of pre-main sequence stars that form a distinct branch in the right of Color-Magnitude Diagram (CMD). These stars exhibit lower temperatures and surface gravity compared to main sequence stars. This implies that there exists a significant rate of star formation within the Czernik 38 cluster. Furthermore, we have discovered many faint blue stars in Czernik 38, as well as in the newly identified clusters, which could potentially be white dwarf stars.