These observations, first made by Philipp Lenard in 1902, gave a startling twist to the story! The mystery was finally resolved by Albert Einstein in 1905, while working as a clerk in the Swiss Patent ...

The electrical signals used for wireless communications, for example, can’t just be shoved into the fiber-optic ...

Quantum computers have the potential to solve complex problems that would be impossible for the most powerful classical ...

High-energy particle accelerators, such as CERN’s Proton Synchrotron and Brookhaven’s Alternating Gradient Synchrotron, were regarded as the most exciting, well-funded and biggest instruments in ...

A simple lab mistake revealed the elusive quantum butterfly, confirming a 50-year-old theory in an unexpected graphene ...

Redox reactions form the basis of many fundamental processes of life. Without them, neither cellular respiration nor ...

The Analyzer for Cusp Electrons (ACE) is designed to measure electron activity in the region of the northern magnetospheric ...

A fundamental understanding of photosynthesis in nature is crucial for applied photosynthesis, which may well prove to play a key role in overcoming some of the greatest challenges that humankind is ...

Li, S. , Liang, C. and Jin, M. (2025) Precision Limit for Observation: The Bridge for Quantum Classical Transitions. Journal ...