It's about time someone nailed down the nuclear clockAn international team has successfully coupled an atomic nucleus to an atomic clock, leading to breakthroughs in ultra-precise timekeeping and exploration of fundamental constants.
229ThF4 thin films for solid-state nuclear clocksThe study of laser excitation in the Th-229 nucleus significantly enhances precision in atomic clocks and may impact fundamental constants and dark matter research.
It's about time someone nailed down the nuclear clockAn international team has successfully coupled an atomic nucleus to an atomic clock, leading to breakthroughs in ultra-precise timekeeping and exploration of fundamental constants.
229ThF4 thin films for solid-state nuclear clocksThe study of laser excitation in the Th-229 nucleus significantly enhances precision in atomic clocks and may impact fundamental constants and dark matter research.
Why the electron's mass is vital to life in the UniverseThe Universe's fundamental constants and forces lack explanation, challenging our understanding of its nature and existence.
Why the number "1/137" appears everywhere in natureThe Universe is uniquely defined by its laws, fundamental constants, and initial conditions, shaping the reality we observe.
Why the electron's mass is vital to life in the UniverseThe Universe's fundamental constants and forces lack explanation, challenging our understanding of its nature and existence.
Why the number "1/137" appears everywhere in natureThe Universe is uniquely defined by its laws, fundamental constants, and initial conditions, shaping the reality we observe.