The Most Accurate Clock in the World

The Most Accurate Clock in the World

For most of our planet's life there has been no defined concept of time. Humans, however, quickly discovered just how useful defining the time could be. Even without precise numbers, they were able to understand that in the morning the sun is low, noon is about when the sun is directly overhead, and if the sun is going down, it must be time to work on getting a fire started.

Keeping track of time

Over the centuries, humans have divided time into smaller and smaller chunks, all in an effort to make our lives more convenient. First, the day was divided into hours. Then the hours were divided into minutes, and finally the minutes into seconds.

With the invention of time, so came the invention of time-keeping devices. There's no doubt that it's much easier to have a clock handy than to have a human mentally count the seconds in a day; plus, a clock can tick at a much more consistent rate. But these clocks aren't perfect. Surely anyone who has an analog watch has found that after a couple weeks/months/years they have to adjust the hands because it would read a minute or 2 off of the actual time.

But this then raises the question: what is the actual time? And how can we measure time in a way that doesn't require us to adjust the clock hands every so often?

Welcome to NIST

When it comes to measuring time, no place is more accurate than the National Institute of Standards and Technology. Located in Boulder, Colorado, this building houses one of the most advanced pieces of time-keeping equipment on the planet. In lieu of batteries and gears that can lead to the inconsistencies most time pieces are susceptible to, the NIST-F1 clock utilizes something much more fundamental: atoms. Cesium atoms, to be specific.

Manipulating nature

One of the fundamental properties of atoms is that they emit and absorb energy, and NIST exploits this ability to turn the atoms into a clock. To do this, cesium atoms are put in a vacuum chamber. Lasers are used to gather these atoms up into a ball and reduce their temperature to near absolute zero. Then they are hit with microwave radiation. The atoms react by absorbing and re-emitting this energy (picture a strobe light quickly flickering on and off).

To convert this pulsing into a time-keeping method, a detector is used to count how many times the cesium atoms “turn on and off” in one second.

How fast is this action? As it turns out, the atoms do not pulse 1,000 times per second, 100,000 times per second, or even 1,000,000 times per second. Incredibly, these atoms manage to flicker on and off at an unfathomable rate of 9,192,631,770 times per second. Yes, over 9 billion times per second. And since this measurement is the official time keeper for the world, it may be more appropriate to say “every time the cesium atoms pulse 9,192,631,770 times, 1 second has gone by.”

Not only is this frequency fast, but also extremely consistent. While a wrist watch may lose the correct time every month or so, this clock will only gain or lose a second every 100,000,000 years!

Now that's accurate time-keeping!

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