New Cosmic Quantum-Logic Clock Accurate for 3.7 Billion Years
Physicists at the National Institute of Standards and Technology (NIST) have built an enhanced version of an experimental atomic clock based on a single aluminum atom that is now the world’s most precise clock, more than twice as precise as the previous pacesetter based on a mercury atom.
The extreme precision offered by optical clocks is already providing record measurements of possible changes in the fundamental “constants” of nature, a line of inquiry that has important implications for cosmology and tests of the laws of physics, such as Einstein’s theories of special and general relativity. Next-generation clocks might lead to new types of gravity sensors for exploring underground natural resources and fundamental studies of the Earth.
The new clock is the second version of NIST’s “quantum logic clock,” so called because it borrows the logical processing used for atoms storing data in experimental quantum computing, another major focus of the same NIST research group. This second version of the logic clock offers more than twice the precision of the original.
Because the international definition of the second (in the International System of Units, or SI) is based on the cesium atom, cesium remains the “ruler” for official timekeeping, and no clock can be more accurate than cesium-based standards such as NIST-F1.
The logic clock is based on a single aluminum ion (electrically charged atom) trapped by electric fields and vibrating at ultraviolet light frequencies, which are 100,000 times higher than microwave frequencies used in NIST-F1 and other similar time standards around the world. Optical clocks thus divide time into smaller units, and could someday lead to time standards more than 100 times as accurate as today’s microwave standards. Higher frequency is one of a variety of factors that enables improved precision and accuracy.
NIST scientists evaluated the new logic clock by probing the aluminum ion with a laser to measure the exact "resonant" frequency at which the ion jumps to a higher-energy state, carefully accounting for all possible deviations such as those caused by ion motions. No measurement is perfect, so the clock’s precision is determined based on how closely repeated measurements can approach the atom’s exact resonant frequency. The smaller the deviations from the true value of the resonant frequency, the higher the precision of the clock.
The enhanced logic clock differs from the original version in several ways. Most importantly, it uses a different type of “partner” ion to enable more efficient operations. Aluminum is an exceptionally stable source of clock ticks but its properties are not easily manipulated or detected with lasers. In the new clock, a magnesium ion is used to cool the aluminum and to signal its ticks. The original version of the clock used beryllium, a smaller and lighter ion that is a less efficient match for aluminum.
NIST’s original logic clock, method of operation and comparison to the mercury clock are described at http://www.nist.gov/public_affairs/releases/logic_clock/logic_clock.html.
Casek Kazan vai NIST
Great.
Now my lateness will be even more obviously.
Excruciatingly.
Noticeable.
Posted by: alexandria heather | February 06, 2010 at 06:22 AM
Superb .
I was under the impression that the most accurate clock systemis assured by the GPS clock which is based on a cluster of Cesium oscillators comparing their signals each other.
BUT the science and technology go on.
This is a 'Clever clock' which can measure at 'Very constant gravity force' very precise 'time intervals' (as all clocks do) and NOT the 'time' that is a quite abstract unperceivable entity.
Regards to the technologists that made it.
Posted by: claudio | February 06, 2010 at 07:42 AM
So, what time is dinner?
Posted by: George B | February 06, 2010 at 10:52 AM
These guys should also look into the possibility that the speed of light, and therefore time, is equal to and the same as the rate of expansion of the Universe!
Posted by: Allan W Janssen | February 07, 2010 at 08:17 AM
This article was submitted 0.000052849712412501 seconds late.
Posted by: Pokwang | February 07, 2010 at 07:44 PM
hickory dickory trickory.
Posted by: dirk alan | February 09, 2010 at 06:33 PM
I was under the impression that the most accurate clock systemis assured by the GPS clock which is based on a cluster of Cesium oscillators comparing their signals each other.
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blazwalk und purterbo los fleezixlan def grangeboot der flowboaten.
And you can quote me!
Posted by: Sven Golly | February 23, 2010 at 11:50 AM