Sujet : Re: "A diagram of C23 basic types"
De : already5chosen (at) *nospam* yahoo.com (Michael S)
Groupes : comp.lang.cDate : 19. Apr 2025, 21:15:46
Autres entêtes
Organisation : A noiseless patient Spider
Message-ID : <20250419231546.00006a20@yahoo.com>
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On Sat, 19 Apr 2025 17:15:42 +0200
David Brown <
david.brown@hesbynett.no> wrote:
On 19/04/2025 09:46, Janis Papanagnou wrote:
On 17.04.2025 17:56, David Brown wrote:
On 16/04/2025 02:53, James Kuyper wrote:
On 4/15/25 18:56, Keith Thompson wrote:
...
The uncertainty in the timing of January 1, 1970, where 1970 is a
year number in the current almost universally accepted Gregorian
calendar, is essentially zero.
>
Modern Cesium clock are accurate to about 1 ns/day.That's an
effect large enough that we can measure it, but cannot correct
for it. We know that the clocks disagree with each other, but the
closest we can do to correcting for that instability is to
average over 450 different clock; the average is 10 times more
stable than the individual clocks.
>
Note: the precision of cesium clocks has improved log-linearly
since the 1950s. They're 6 orders of magnitude better in 2008
than they were in 1950. Who knows how much longer that will
continue to be true?
>
I don't think cesium is still the current standard for the highest
precision atomic clocks.
Well, the "Cesium _fountain_" atomic clocks are still amongst
the most precise and they are in use in the world wide net of
atomic clocks that are interconnected to measure TAI.[*] And
the standard second is _defined_ on Caesium based transitions.
Caesium fountain clocks are old school, but still used. Rubidium is
popular because it is cheaper, and very high stability atomic clocks
use aluminium or strontium. Caesium is still the basis for the
current definition of the second, but that will change in the next
decade or so as accuracy of timekeeping has moved well beyond the
original caesium standard.
But anyway, the newest breakthrough is thorium
nuclear clocks, which IIRC are 5 orders of magnitude more stable
than cesium clocks. (And probably 5 orders of magnitude more
expensive...)
I've not heard of Thorium based clocks. But I've heard of
"optical clocks" that are developed to get more precise and
more stable versions of atomic clock times.
It was only last year that a good measurement of the resonant
frequencies of the Thorium 229 nucleus was achieved - the science bit
is done, now the engineering bit needs to be finished to get a
practical nuclear clock.
Record my prediction: it's not going to happen.
"A diagram of C23 basic types"
Re: "A diagram of C23 basic types"