Archaeologists uncovered extensive Roman-era remains in Britain, including a large settlement with roads, buildings, coins, pottery, and imported goods. The findings show a thriving commercial community and how local Iron Age life transitioned into Romanized urban society.
Archaeologists uncovered extensive Roman-era remains in Britain, including a large settlement with roads, buildings, coins, pottery, and imported goods. The findings show a thriving commercial community and how local Iron Age life transitioned into Romanized urban society.
To everyone here: you are amazing and deeply appreciated. Whatever you’re facing, don’t give up. Keep going — your presence matters more than you know. We’re all in this together.
To everyone here: you are amazing and deeply appreciated. Whatever you’re facing, don’t give up. Keep going — your presence matters more than you know. We’re all in this together.
A private citizen in the U.S. voluntarily returned an ancient Cypriot ceramic vessel after it was identified as likely looted and illegally exported. Cyprus authorities praised the cooperation, and the artifact will be studied and preserved as part of the island’s cultural heritage.
A private citizen in the U.S. voluntarily returned an ancient Cypriot ceramic vessel after it was identified as likely looted and illegally exported. Cyprus authorities praised the cooperation, and the artifact will be studied and preserved as part of the island’s cultural heritage.
Robots are increasingly driving warfare by handling surveillance, targeting, logistics, and some combat tasks. Faster autonomous systems can outpace human decisions, meaning machines may increasingly determine battlefield outcomes while raising concerns over control and accountability.
Robots are increasingly driving warfare by handling surveillance, targeting, logistics, and some combat tasks. Faster autonomous systems can outpace human decisions, meaning machines may increasingly determine battlefield outcomes while raising concerns over control and accountability.
Oxford physicists created a new type of “Schrödinger’s cat” quantum state, where a tiny trapped particle can exist in multiple unusual quantum states at once. The breakthrough could improve future quantum computers, sensors, and our understanding of how the quantum world works.
Oxford physicists created a new type of “Schrödinger’s cat” quantum state, where a tiny trapped particle can exist in multiple unusual quantum states at once. The breakthrough could improve future quantum computers, sensors, and our understanding of how the quantum world works.
