Realisation (metrology) explained

In metrology, the realisation of a unit of measure is the conversion of its definition into reality.

An example of the concept of realisation, is the unit of length, the meter. The metre was originally defined in 1791 as one ten-millionth of the distance from the equator to the North Pole along a great circle. To actually measure a length, this definition must be converted into a physical tool, which can be used to complete the measurement. The meter stick is the realisation of the meter.

The International Bureau of Weights and Measures maintains the techniques for realisation of the base units in the International System of Units (SI), all seven of which are defined in terms of natural physical constants, rather than human artefacts such as the standard kilogram.^{[1] [2]} Following the 2019 revision of the SI all fundamental units of metrology are now defined in terms of natural physical constants, rather than human artefacts. The realization of these units is also defined by a published "Practice for the Realization of the Unit", doe each unit. This is a detailed set of technical instructions for the construction of a device that will produce a practical realization of each unit. Any competant person, who follows these instructions can realize any unit.

For example the metre is defined as 1/ of the distance light travles in one second. The Practice for the Realization of the Metre describes how to build an apparatus to determine this distance. Using this aparatus it is possible to construct a metre stick which is the realization of the metre.^[3]

The International vocabulary of metrology identifies three distinct methods of realisation:

1. Realisation of a measurement unit from its definition.
2. Reproduction of measurement standards.
3. Adopting a particular artefact as a standard..^[4]

Overview

The Oxford English Dictionary defines the word "realise" (also spelt "realize") as "to convert (something imagined, planned, etc.) into real existence or fact". The International vocabulary of metrology identifies three distinct ways in which this is done – the first being the realisation of a measurement unit from its definition, the second the reproduction of measurement standards and the third the process of actually adopting a particular artefact as a standard.^[5]

Techniques

Time

The realisation of time has gone through three phases. During both the first and second phases, man used solar time – during the first phase, realisation of time was by observing the Earth's rotation using such devices as the sundial or astrolabe. During the second phase actual timing devices such as hourglasses or clocks were used. If the user needed to know time-of-day rather than elapsed time, clocks were synchronised with astronomical time. The third phase made use of clocks that were sufficiently accurate that they could measure variations in the Earth's rotation – such clocks taking over from the rotation of the earth as the prime measure of time.

Direct measurement of solar time

• Sundials and astrolabes

Timekeepers

• Accuracy of clocks

Time generators

• Radiation frequency and SI

Length

Units of length, along with mass (or weight) and time, are one of the earliest quantities that was measured by man. Historically two distinct approaches were used – one was to use a naturally occurring phenomenon such as a particular seed or part of the human body, the other was to use a standard length that was held by a community leader.

• Natural units – barleycorn, feet
• Regal units – measures held by ruler
• Using speed of light

An example of a modern realisation is the realisation of the metre in terms of optical frequency standards.^[6]

Volume

• Jugs etc. in ancient times
• Not a base unit in SI

Mass

• Grains
• Artefacts held by governments (e.g. the International Prototype of the Kilogram)
• Kibble balance and Avogadro experiment

Electric charge

• Silver nitrate deposits
• force between conductors
• charge on the electron

Temperature

• freezing & boiling water
• Non-linearity etc.
• Boltzmann constant

Photometry

• Sensitivity of the eye

Amount of substance

• Development of the mole

Notes and References

1. Web site: BIPM statement: Information for users about the proposed revision of the SI . 5 May 2018 . https://web.archive.org/web/20180121160000/https://www.bipm.org/utils/common/pdf/SI-statement.pdf . 21 January 2018 . live . dmy-all.
2. Web site: Decision CIPM/105-13 (October 2016) . 31 August 2017 . https://web.archive.org/web/20170824095943/http://www.bipm.org/en/committees/cipm/meeting/105.html . 24 August 2017 . live . dmy-all.
3. Wilkie . Tom . Time to remeasure the metre . . 27 October 1983 . 27 October 1983 . 258–263.
4. Web site: Practical realization of the definitions of some important units . . 46 . 2012 . 23 April 2013.
5. Book: International vocabulary of metrology - Basic and general concepts and associated terms (VIM) . 3rd . 2012 . International Bureau of Weights and Measures on behalf of the Joint Committee for Guides in Metrology. . 26 April 2013.
6. Quinn. T. J.. Practical realisation of the definition of the metre, including recommended radiations of other optical frequency standards (2001). Metrologia. 2003. 40. 103–133. 6 December 2013. 10.1088/0026-1394/40/2/316. 2003Metro..40..103Q.