UK Atomic Clock
Atomic time from an atomic clock is the most exact accurate time correct to 1 second in 1 million years.

Atomic clocks achieve accurate time because they are controlled by radio transmitters which themselves receive their time signals from amazingly accurate timepieces, Caesium Atomic Clocks. These Caesium Atomic Clocks that have an accuracy of one second in one million years!

In operation, the clocks are based upon the characteristics of the Caesium 133 atom, whose single electron is known to vibrate at a standard 9,162,613,770 times a second. These are the Atomic Clocks that have an accuracy of one second in one million years!

Atomic clocks are time standards for counting the passing seconds. In addition, there are internationally agreed time scales which set the calendar and the beginning of each new day. Greenwich Mean Time (GMT) was established as the first global time scale in 1884, and its 'atomic' equivalent, UTC, was adopted as the official time for the world in January 1972. The International Bureau of Weights and Measures (BIPM) acts as the official keeper of atomic time for the world. NPL uses its atomic clocks to contribute to the determination of UTC, along with approximately 230 other clocks from 65 laboratories world wide.

First accurate caesium atomic clock

The National Physics Laboratory developed the first accurate caesium atomic clock in 1955, which led to the internationally agreed definition of the second being based on atomic time.

NPL realised the atomic frequency standard for time with the construction of the first long beam apparatus based on the transition of the caesium-133 atom. Successive developments of this have remained the fundamental standard up to the present day.

The second is defined as 9,192,631,770 periods of the caesium-133 atom, and is currently realised at NPL to an accuracy of one second in 15 million years.

Scientists are currently working on technology to increase this accuracy to 1 second in 10 billion years.

MSF atomic clock receiver

The controlling radio signal for the National Physical Laboratory's clock is transmitted on the MSF 60kHz signal via the transmitter at Rugby, operated by British Telecom International. This should have a range of some 1,500 km or 937.5 miles. All of the British Isles are of course within this radius.

The National Physical Laboratory's role as keeper of the national time standards is to ensure that the UK time-scale agrees with Co-ordinated Universal Time (UTC) to the highest levels of accuracy and to make that time available across the UK. As an example, the MSF (MSF being the three-letter call sign to identify the source of the signal) radio broadcast provides the time signal for, electronic share trading, the clocks at most railway stations and for BT's speaking clock.

DCF atomic clock receiver

The controlling radio signal for the German clock is transmitted via long wave from the DCF 77kHz transmitter at Mainflinger, near Dieburg, some 25 km south east of Frankfurt - the transmitter of German National Time Standards. It is similar in operation to the Rugby transmitter, however there are two antennas (radio masts) so the signal can be maintained at all times.

Long wave is the preferred radio frequency for transmitting time code binary signals as it performs most consistently in the stable lower part of the ionosphere. This is because the longwave signal carrying the time code to your timepiece travels in two ways; directly and indirectly. Between 700 km (437.5 miles) to 900 km (562.5 miles) of each transmitter the carrier wave can travel directly to the timepiece. The radio signal also reaches the timepiece via being bounced off the underside of the ionosphere. During the hours of daylight the a part of the ionosphere called the "D layer" at an altitude of some 70 km (43.75 miles) is responsible for reflecting the longwave radio signal. During the hours of darkness when the sun's radiation is not acting from outside the atmosphere, this layer rises to an altitude of some 90 km (56.25 miles) becoming the "E layer" in the process. Simple trigonometry will show that signals thus reflected will travel further.

All of the British Isles are within the radius of this transmitter. A large part of the European Union area is covered by this transmitter facilitating reception for those who travel widely in Europe. Although the German clock is set on Central European Time - one hour ahead of U.K. time, following an inter-governmental decision, from the 22nd October, 1995, U.K. time will always be 1 hour less than European Time with both the U.K. and mainland Europe advancing and retarding clocks at the same "time".

WWVB atomic clock receiver

A radio system is available in North America set up and operated by NIST - the National Institute of Standards and Technology, located in Fort Collins, Colorado. NIST operates radio station WWVB, which is the station that transmits the time codes. WWVB has high transmitter power (50,000 watts), a very efficient antenna and an extremely low frequency (60,000 Hz). For comparison, a typical AM radio station broadcasts at a frequency of 1,000,000 Hz. The combination of high power and low frequency gives the radio waves from WWVB a lot of bounce, and this single station can therefore cover the entire continental United States plus much of Canada and Central America.The time codes are sent from WWVB using one of the simplest systems possible, and at a very low data rate of one bit per second. The 60,000 Hz signal is always transmitted, but every second it is significantly reduced in power for a period of 0.2, 0.5 or 0.8 seconds: · 0.2 seconds of reduced power means a binary zero · 0.5 seconds of reduced power is a binary one. · 0.8 seconds of reduced power is a separator. The time code is sent in BCD (Binary Coded Decimal) and indicates minutes, hours, day of the year and year, along with information about daylight savings time and leap years. The time is transmitted using 53 bits and 7 separators, and therefore takes 60 seconds to transmit. A clock or watch can contain an extremely small and relatively simple antenna and receiver to decode the information in the signal and set the clock's time accurately. All that you have to do is set the time zone, and the atomic clock will display the correct time.

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