A quantum clock is a type of atomic clock with laser cooled single ions confined together in an electromagnetic ion trap. Developed by National Institute of Standards and Technology physicists, the clock is 37 times more precise than the existing international standard. The quantum logic clock is based on an aluminum spectrocopy ion with a logic atom.
Both the aluminum-based quantum clock and the mercury-based optical atomic clock track time by the ion vibration at an optical frequency using a UV laser, that is 100,000 times higher than the microwave frequencies used in NIST-F1 and other similar time standards around the world. Quantum clocks like this are able be far more precise than microwave standards and current optical clocks.
- Accuracy 1
- Gravitational time dilation 2
- See also 3
- References 4
In terms of standard deviation, the quantum logic clock loses one second every 3.4 billion years, while the current international standard NIST-F1 caesium fountain atomic clock loses a second every 100 million years.
The NIST team are not able to measure clock ticks per second because the definition of a second is based on the NIST-F1 which cannot measure a more precise machine. However the aluminum ion clock's measured frequency to the current standard is 1121015393207857.4(7)Hz. NIST have attributed the clock's accuracy to the fact that it is insensitive to background magnetic and electric fields, and unaffected by temperature.
In February 2010, NIST physicists built a second, enhanced, version of the single aluminum atom quantum logic clock using a Be+logic ion instead of the a Mg ion . Considered the world's most precise clock, it offers more than twice the precision of the original, losing one second in 3.7 billion years.
Gravitational time dilation
In 2010 an experiment placed two aluminium-ion quantum clocks close to each other, but with the second elevated 12 inches compared to the first, making the gravitational time dilation effect visible. It has been calculated that a human being living "12 inches" below ground level would have a life expectancy, for a 79-year life span, of 90 billionths of a second longer.
- Ghose, Tia (5 February 2010). "Ultra-Precise Quantum-Logic Clock Puts Old Atomic Clock to Shame".
- "Frequency Ratio of Al+ and Hg+ Single-ion Optical Clocks; Metrology at the 17th Decimal Place" (pdf). sciencemag.org. 28 March 2008. Retrieved 2013-07-31.
- "Quantum Clock Proves to be as Accurate as World's Most Accurate Clock". azonano.com. 7 March 2008. Retrieved 2012-11-06.
- "NIST's Second 'Quantum Logic Clock' Based on Aluminum Ion is Now World's Most Precise Clock" (Press release).
- "How to add 90billionths of a second to your life . . . live in the basement: Scientists prove time really does pass quicker at a higher altitude" (Press release).