Eastfield Resources Ltd. reported that Alpha Copper Corp. has released results of the high-resolution airborne magnetic gradient, radiometric and very-low-frequency/electromagnetic survey at the Indata project located in central British Columbia under option from Eastfield Resources Ltd. The Indata project encompasses 3,189 hectares (7,880 acres) and is located 230 kilometers northwest of the City of Prince George and immediately south of the Stardust-Kwanika Project, owned by Northwest Copper Corp. Alpha Copper may earn a 60% interest by completing $2,300,000 in exploration and paying $450,000 (cash and/or shares) by June 20, 2024.

The new magnetic and radiometric dataset is a great improvement over historical datasets and will be interpreted to generate new drill targets. The magnetic survey shows high-resolution details of a magnetic anomaly associated with copper mineralization in the Lake Zone where previous results include IN22-82 with 173.6 meters grading 0.23% copper starting at 2.9 meters including 28.9 meters grading 0.47% copper starting at 2. 9 meters. It constitutes the northern boundary of the Lake Zone which remains open beyond this point.

A new zone of molybdenum mineralization was unexpectedly discovered in 2022 5 kilometers to the south of the Lake Zone in what is now called "Area 74" where hole IN22-74 intersected 30.8 meters grading 0.10% molybdenum (0.16 MoS2 eq.) starting at 113.7 meters and continuing to the bottom of the hole including 7.5 meters grading 0.32% molybdenum ("0.51% MoS2 eq.). The magnetic survey shows linear features associated with both the Polymetallic (Cu-Au-Ag) Vein Zone and the 74 Zone (Mo; discovered in 2022). The former feature can be followed over a 3 km strike length and the latter over 2.5 km with the new geophysics.

The Company is currently preparing for a 3D-IP survey on the Lake Zone and Precious Metal vein zone to complement the data and further define drill targets. Alpha Copper flew the entire Indata claim block at 100 metre spacing using a Precision Geosurveys gradient magnetic system. This system uses 3 magnetometers to measure the gradient of the magnetic field and collects superior data.

At the same time the helicopter is fitted with sensors to collect VLF and radiometric data. The dataset will be further interpreted to identify faults, shears and alteration patterns that may lead to additional and refined drill targets.