Announcement • 1h
Traction Uranium Corp. Announces Planned Start Date for Airborne Radiometric Survey At the Aurora Uranium Project Traction Uranium Corp. announced that the planned airborne radiometric survey at the Aurora Uranium Project, located in Saskatchewan’s Athabasca Basin region, is scheduled to commence on June 20, 2026, subject to weather, aviation scheduling, and final operational readiness. Traction holds an option to acquire an 80% interest in Aurora from Cosa Resources Corp., subject to satisfying certain earn-in requirements. The Aurora Project covers approximately 17 kilometers of prospective strike along the southeastern margin of the Athabasca Basin. The planned airborne radiometric survey is designed to evaluate the Project for radiometric responses at a property-wide scale and to support the prioritization of target areas for future follow-up exploration. The radiometric data is expected to assist in refining exploration planning at Aurora, including the evaluation of areas with potential for near-surface mineralization, ground follow-up, target validation, and future drill-target refinement. The Company expects to provide further updates as the survey progresses and as results are received, processed, and interpreted. Announcement • May 23
Traction Uranium Corp Announces Field Reconnaissance Program At Aurora Uranium Project Traction Uranium Corp. announced that it is planning a helicopter-supported field reconnaissance program at the Aurora Uranium Project, located in Saskatchewan’s Athabasca Basin region. Traction holds an option to acquire an 80% interest in Aurora from Cosa Resources Corp., the underlying owner and operator of the Project, subject to satisfying certain earn-in requirements. The Project covers approximately 17 kilometres of prospective strike along the southeastern margin of the Athabasca Basin. The planned field reconnaissance is expected to include a helicopter-supported review of the Project area, including visual inspection of priority target areas, assessment of access and logistical considerations, review of potential staging and landing areas, and evaluation of local terrain conditions that may influence future exploration work. The reconnaissance program is intended to support the upcoming airborne radiometric and magnetic survey previously announced by Traction, including the review of access, terrain, and logistical conditions across the Aurora Project. Information collected during the reconnaissance program is expected to assist with survey planning and field coordination, including the assessment of potential staging areas, helicopter access considerations, and priority areas for efficient survey execution. Announcement • May 11
Traction Uranium Corp Announces Survey Specifications For High-Resolution Airborne Radiometric And Magnetic Survey At The Aurora Uranium Project Traction Uranium Corp. announced further details regarding the planned airborne radiometric survey at the Aurora Uranium Project, located in Saskatchewan’s Athabasca Basin region. The survey is expected to consist of approximately 5,212-line kilometers of low-level, tight-drape, high-resolution radiometric and aeromagnetic surveying across the Project. The survey will be completed under the direction of Cosa Resources Corp., the underlying owner and operator of the Project. Traction holds an option to acquire an 80% interest in Aurora from Cosa, subject to satisfying certain earn-in requirements. The Aurora Project covers approximately 17 kilometers of prospective strike along the southeastern margin of the Athabasca Basin. The planned survey is expected to occur between June and July 2026 over an estimated 17-day operating period, subject to seasonal weather conditions, aircraft availability, equipment preparation, calibration, and other operational considerations. Field operations are expected to be based primarily from Points North Landing, Saskatchewan. The survey is designed to provide high-resolution radiometric coverage across Aurora, with traverse lines planned at 50-meter spacing and tie lines planned at 750-meter spacing. The survey will use a low-level tight-drape method, subject to safety and operating conditions, and will collect both spectrometer and high-resolution magnetic data. The planned survey configuration is intended to support the identification of radioactive anomalies, refine geological and structural interpretations, and help prioritize areas for follow-up exploration. SPI’s airborne radiometric system includes a 16-detector, Compton-shielded, thermally stabilized sodium iodide scintillometer array, supported by high-resolution magnetic acquisition, laser altimeter, Global Navigation Satellite System, inertial navigation, and onboard quality control systems. Preliminary data quality control and processing are expected to occur both on site and remotely, with final processing to be completed in Calgary, Alberta. Expected deliverables include leveled magnetic data, energy-calibrated radiometric data, digital elevation model data, preliminary survey products, and interpreted radiometric targets where warranted. The planned high-resolution airborne radiometric survey line layout at Aurora shows proposed 50-meter-spaced survey lines and the Key Lake powerline corridor. 
