> On Mar 6, 2015, at 7:57 PM, Steve Allen <s...@ucolick.org> wrote: > > On Sat 2015-03-07T02:02:12 +0000, Harlan Stenn hath writ: >> When we get a bit more down the road with NTF's General Timestamp API, >> I'd appreciate your taking a look at what we're doing and helping out in >> any way you are up for. One of the issues that will need more attention >> is pre-1972 stuff. > > Before 1972 is pretty simple. > > Without some means of comparing an event with a particular radio > broadcast time signal or a particular astronomical event, everything > before 1972 is just plain UT or GMT back to 1676, and UT before that.
Before 1972 there were radio signals. LORAN C was operated from the early 60’s onward, and many receivers existed to recover timing data from them. WWV dates back to the 30’s, with the current Ft Collins transmitter dating from the 1960’s. It started broadcasting UTC time in December 1968. > Any subsecond deviations from what those represent (including worries > about UT0, UT1, UT2) are only available by painstaking inspection (and > re-interpretation into modern terminology) of the tabulations in BIH > Bulletin Horaire. I’m not entirely sure that’s correct. You can recover time to at least tens of microseconds from WWV or LORAN-C, which is quite a bit better than you need to notice the difference between UTC and UT1. With a good cesium standard, synchronized at NBS, running off battery power for the car ride to the lab, WWV could keep you on frequency as well, and you could get sub-microsecond level of performance. I got to hear many tales of the old days when they did this sort of two-way time exchange before satellites. This allowed the frequency broadcast by WWV to be within a few parts in e11 (day it is 100x better). If you read the histories of WWV, they talk about the close proximity to Boulder enabling this. The reason was that the battery backup would be enough to last the 45 minutes or so it takes to go from Boulder to Fort Collins… WWV followed the frequency offset + phase steps in the rubber leap second era, which was an attempt to keep UT1 and UTC not only synchronized, but also syntonized. I find it curious that the practice of adjusting the frequency of the clocks persisted for 5 years after the SI second was defined. So it isn’t outside the realm of possibilities that you’d have people making measurements from the late 60’s till 1972 using UTC (and yes, it did exist in a practical form before 1972, just not in the current form and the common usage often leaves some ambiguity between the actual, realized form as broadcast by WWV, or the proleptic form w/o leap seconds). Actual measurements from this time, though, were based on something approaching the UTC as broadcast by WWV. Not sure how many data sets from that time survive until today, and how many need to be converted from that to UT1 or UT2, but evidentially there’s some... Warner
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