The Nobel Prize 2025 in Physics explores how John Clarke , Michel H. Devoret , and John M. Martinis proved that quantum mechanics applies not only to subatomic particles but also to macroscopic systems —circuits we can build and control. Their discovery of macroscopic quantum tunneling and energy quantization in an electric circuit changed the way scientists understand the quantum world and opened the path to superconducting qubits , quantum computing , and quantum technology . Readers will gain a clear understanding of how Josephson junctions , SQUIDs , and superconductivity work, and why this 2025 Nobel Prize matters for the future of quantum engineering , sensing , and information science . Written in simple, engaging language, this book helps readers appreciate how precision, creativity, and careful measurement continue to drive the most exciting discoveries in modern physics.