Summary: Everything is both a particle and a wave. For larger particles the frequency of the wave is very very high. (This is called the de Broglie wavelength if you want to learn more about it.)
The clock attempts to measure this frequency and use it to track time.
As of right not the clock isn't as accurate as modern atomic clocks, but because the item it measures - mass - is so fundamental and unchanging it holds great potential.
Criticism: This clock does not appear to actually measure the de Broglie wavelength directly. The oscillation frequency of the clock is much lower.
This reminds of the Phase Locked Loop/VCO setup you find in synthesized radio's but not. I wonder what impact the accuracy of their laser source has on the accuracy of the clock ...
Anyone have a reasonably simplistic explanation of how the laser 'kicks' would impact Compton cycles? I. E. what aspects of the laser affect Compton cycles?
The clock attempts to measure this frequency and use it to track time.
As of right not the clock isn't as accurate as modern atomic clocks, but because the item it measures - mass - is so fundamental and unchanging it holds great potential.
Criticism: This clock does not appear to actually measure the de Broglie wavelength directly. The oscillation frequency of the clock is much lower.