Infini Resources Limited has advanced its exploration program at the Reynolds Lake Uranium Project in northern Saskatchewan, Canada, with the successful completion and analysis of an extensive 1,100-line kilometer airborne time-domain electromagnetic survey. The data reveals multiple large-scale, vertically dipping bedrock electromagnetic conductors—two of which extend over 10 kilometers in length—aligned with magnetic lows and radiometric uranium anomalies. These results indicate zones of possible shallow unconformity-style uranium mineralisation, potentially as near as 20 meters below the surface. With the project situated along the Needle Falls Shear Zone, on the outboard edge of the Athabasca Basin, these findings hint at the existence of graphitic rock packages critical to the uranium reduction and precipitation process. The modern TDEM survey, employing advanced airborne methods with high spatial resolution, marks a significant update since earlier exploration efforts dating back to the 1970s. By using this technology, the company has been able to penetrate conductive glacial overburden and identify previously undetected targets. The survey’s design was executed with traverse lines spaced at 450 meters along a 130° to 310° orientation and tie-back lines at 4,500 meters along a 040° to 220° orientation, ensuring effective coverage of the project's 386 km² area. Data from this survey, when combined with regional geochemical and historical geophysical information, will guide the identification of key walk-up targets for the next phase of ground exploration, which is anticipated to include lithogeochemical sampling and mapping. Analysts note that the shallow nature of the anomalies at Reynolds Lake implies a potentially lower exploration and development cost profile compared to deeper deposits, such as those operated by major industry players. The integration of multiple data sets in an ongoing desktop study is expected to pinpoint high priority areas, further enhancing the project's prospects in a region globally renowned for high-grade uranium deposits on the Athabasca Basin’s fringes. The news carries a favorable sentiment among market observers. Bullish indicators include the identification of geophysical signatures associated with unconformity-related uranium mineralisation, the efficiency benefits from near-surface targets, and the potential for rapid follow-up exploration in a historically underexplored area. On the other hand, bearish sentiment might focus on the early stage of exploration, the inherent risks in transitioning from geophysical anomalies to economically viable deposits, and the uncertainties that remain until drill testing confirms resource potential.