Wide-separation lensed quasars (WSLQs) represent a special but rare subclass of strongly lensed quasars with multiple images, magnified by massive galaxy cluster lenses, which offer valuable probes for the properties of dark matter halos and detailed characteristics of quasar host galaxies. However, only around ten WSLQ systems are known so far, limiting the development of relevant investigations. To enlarge the sample of WSLQs by mining candidates from large-scale sky surveys, we develop a catalogue-based pipeline and apply it to the , which is a quasar candidate catalogue with more than 1.5 million candidates constructed from DR3. The has a purity of ( G band of (łesssim21). CatNorth Gaia CatNorth and a limiting magnitude in the Gaia Our pipeline unfolds in three sequential stages. First, to search for groups of quasar candidates with a maximum quasar image separation between 10 and 72 arcsec, we applied a friends-of-friends-like algorithm to the HEALPix grids of objects using a grid size of 25.6 arcsec. Second, these identified groups undergo an automatic filtering process that assesses the intra-group similarity of photometric colours or spectral information when available. These two steps yield 14 760 quasar candidate groups, while retaining all discoverable previously known WSLQs. Third, a visual inspection, guided primarily by the projected geometry of the quasar images and plausible foreground objects, yields the final candidate sample, with a label indicating the candidates' quality. CatNorth We have identified a total of 333 new WSLQ candidates with separations ranging from 10 to 56.8 arcsec. By exploiting the available DR16/ DR1 spectroscopic data, we uncovered two novel WSLQ candidate systems, but 331 WSLQ candidates -- 45 Grade A, 98 Grade B, and 188 Grade C systems -- lack sufficient spectral information. In addition, a sample of 29 dual quasar candidates is presented as a by-product. When feasible, we plan to secure follow-up spectroscopy and deeper imaging to confirm WSLQs from the above candidates and proceed with pertinent scientific investigations. SDSS DESI
Wu et al. (Thu,) studied this question.