Breakthrough in Nuclear Clock Technology

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Breakthrough in Nuclear Clock Technology

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An international research team led by scientists at JILA has showcased key components of a nuclear clock, a new type of timekeeping device that relies on signals from an atom’s nucleus.

 

Breakthrough in Nuclear Clock Technology

 

The Science Behind Nuclear Clocks

  • Unlike atomic clocks, which measure time-based on the vibrations of electrons in an atom, nuclear clocks rely on the energy transitions within an atom’s nucleus.
  • This makes them less susceptible to external disturbances, potentially offering greater accuracy.
  • The core of this technology involves using a specially designed ultraviolet laser to measure the frequency of an energy jump in thorium-229 nuclei embedded in a solid crystal.

 

 

Key Highlights:

  • They employed an optical frequency comb, which acts like an extremely accurate light ruler, to count the number of ultraviolet wave cycles that create the energy jump. 
  • The nuclear clock technology has achieved a level of precision one million times higher than previous measurements. 
  • This advancement includes the first direct frequency link between a nuclear transition  (in thorium-229) and an atomic clock (using strontium atoms). 
  • The research has produced unprecedented results, including the ability to observe the shape of the thorium nucleus in detail never seen before—comparable to seeing individual blades of grass from an aeroplane.
  • The next steps involve refining the technology to create portable and highly stable nuclear clocks. Researchers aim to integrate this new timekeeping system with existing technologies and explore its full potential.

 

Challenges and Innovations:

  • Traditional nuclear clocks would need coherent X-rays for energy jumps, which are currently beyond practical production
  • The thorium-229 nucleus has a smaller energy jump compared to other atoms, making it a viable candidate for nuclear clock development.

 

Applications and Implications:

  • For the general public, nuclear clocks could mean more precise navigation systems, faster internet speeds, more reliable network connections, and more secure digital communications. 
  • These clocks might help in the search for dark matter by providing more precise measurements that could reveal new physics beyond the Standard Model.
  • They could also verify if the fundamental constants of nature remain truly constant over time, providing insights into the stability of physical laws.

 

An atomic clock is an exceptionally precise timekeeping device that measures time-based on the vibrations of atoms. It plays a crucial role in various applications demanding accurate timing, including GPS systems and scientific research. There are two main types of atomic clocks: cesium and hydrogen maser. Cesium atomic clocks, the most common, set the international standard for Coordinated Universal Time (UTC). Hydrogen maser atomic clocks provide even higher accuracy and are mainly utilised in scientific research.

 

 

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