In the late 19th century, spectroscopists adopted 10−10 of a metre as a convenient unit to express the wavelengths of characteristic spectral lines (monochromatic components of the emission spectrum) of chemical elements. However, they soon realized that the definition of the metre at the time, based on a material artifact, was not accurate enough for their work. So, around 1907 they defined their own unit of length, which they called "Ångström", based on the wavelength of a specific spectral line.[7] It was only in 1960, when the metre was redefined in the same way, that the angstrom became again equal to 10−10 metre. Yet the angstrom was never part of the SI system of units,[13][14] and has been increasingly replaced by the nanometre (10−9 m) or picometre (10−12 m).
History
In 1868, Swedish physicist Anders Jonas Ångström created a chart of the spectrum of sunlight, in which he expressed the wavelengths of electromagnetic radiation in the electromagnetic spectrum in multiples of one ten-millionth of a millimetre (or 10−7 mm.)[16][17] Ångström's chart and table of wavelengths in the solar spectrum became widely used in the solar physics community, which adopted the unit and named it after him.[citation needed] It subsequently spread to the fields of astronomical spectroscopy, atomic spectroscopy, and then to other sciences that deal with atomic-scale structures.
Early connection to the metre
Although intended to correspond to 10−10 metres, that definition was not accurate enough for spectroscopy work. Until 1960 the metre was defined as the distance between two scratches on a bar of platinum-iridium alloy, kept at the BIPM in Paris in a carefully controlled environment. Reliance on that material standard had led to an early error of about one part in 6000 in the tabulated wavelengths. Ångström took the precaution of having the standard bar he used checked against a standard in Paris, but the metrologistHenri Tresca reported it to be so incorrect that Ångström's corrected results were more in error than the uncorrected ones.[18]
Cadmium line definition
In 1892–1895, Albert A. Michelson and Jean-René Benoît, working at the BIPM with specially developed equipment, determined that the length of the international metre standard was equal to 1553163.5 times the wavelength of the red line of the emission spectrum of electrically excited cadmium vapor.[19] In 1907, the International Union for Cooperation in Solar Research (which later became the International Astronomical Union) defined the international angstrom as precisely 1/6438.4696 of the wavelength of that line (in dry air at 15 °C (hydrogen scale) and 760 mmHg under a gravity of 9.8067 m/s2).[20]
This definition was endorsed at the 7th General Conference on Weights and Measures (CGPM) in 1927,[citation needed] but the material definition of the metre was retained until 1960.[21] From 1927 to 1960, the angstrom remained a secondary unit of length for use in spectroscopy, defined separately from the metre.[citation needed]
Redefinition in terms of the metre
In 1960, the metre itself was redefined in spectroscopic terms, which allowed the angstrom to be redefined as being exactly 0.1 nanometres.[citation needed]
Angstrom star
After the redefinition of the meter in spectroscopic terms, the Angstrom was formally redefined to be 0.1 nanometers. However, there was briefly thought to be a need for a separate unit of comparable size defined directly in terms of spectroscopy. In 1965, J.A. Bearden defined the Angstrom Star (symbol: Å*) as 0.202901 times the wavelength of the tungsten line.[15][22] This auxiliary unit was intended to be accurate to within 5 parts per million of the version derived from the new meter. Within ten years, the unit had been deemed both insufficiently accurate (with accuracies closer to 15 parts per million) and obsolete due to higher precision measuring equipment.[23]
For compatibility reasons, Unicode assigns a code point U+212BÅANGSTROM SIGN for the angstrom symbol, which is accessible in HTML as the entityÅ, Å, or Å.[25] However, version 5 of the standard already deprecates that code point and has it normalized into the code for the Swedish letter U+00C5ÅLATIN CAPITAL LETTER A WITH RING ABOVE (HTML entity Å, Å, or Å), which should be used instead.[26][25]
In older publications, where the Å glyph was unavailable, the unit was sometimes written as "A.U.". An example is Bragg's 1921 classical paper on the structure of ice,[11] which gives the c- and a-axis lattice constants as 4.52 A.U. and 7.34 A.U., respectively. Ambiguously, the abbreviation "a.u." may also refer to the atomic unit of length, the bohr—about 0.53 Å—or the much larger astronomical unit (about 1.5×1011 m).[27][28][29]
^ abcOxford University Press (2019) Entry "angstrom" by Oxford Living Dictionaries online; Archived on 2019-03-06. Spellings "angstrom" [aŋstrəm] and "ångström"; symbol "Å"
^ abMerriam-Webster (2024): Entry "angstrom" in the [www.merriam-webster.com Merriam-Webster.com Dictionary]. Accessed 2024-01-30. Spelling "angstrom" [ˈaŋ-strəm], ['ȯŋ-strəm]
^Peter Roach (2011): Cambridge English Pronouncing Dictionary, 18th edition. ISBN9780521152532
^ abcdeOxford University Press (1986) Entry "Ångström (unit)" in the Oxford English Dictionary, 2nd edition (1986); Archived on 2021-11-22. Spellings "Ångström" [ɔːŋstrœm] (capitalized) and "angstrom" (lowercase); symbols "Å", "Å.U.", "A.U." Quote: "The International Ångström (I.Å.) was defined in 1907 in terms of the wavelength of cadmium which in standard conditions is 6438·4696 I.Å. When the metre was defined in terms of the wavelength of krypton in 1960 the Ångström became exactly equal to 10−8 cm."
^ abAmbler Thompson and Barry N. Taylor (2009): "B.8 Factors for Units Listed Alphabetically". NIST Guide to the SI, National Institutes of Standards and Technology. Accessed on 2019-03-02
^ abJ. A. Bearden (1965): "Selection of the W Kα₁ as the X-Ray Wavelength Standard". Physical Review 2nd series, volume 137, issue 2B, pages 455B–B461. doi:10.1103/PhysRev.137.B455
^Albert A. Michelson (1895): "Détermination expérimentale de la valeur du mètre en longueurs d'ondes lumineuses" (= "Experimental determination of the value of the meter in terms of the lengths of light waves"); translated to French by Jean-René Benoît. Travaux et Mémoires du Bureau International des Poids et Mesures, volume 11, pages 1–85. Quote from p. 85, back-translated: "... the final conclusion of this work is that the fundamental unit of the metric system is represented by the following numbers of wavelengths of three emissions of cadmium, in air at 15 °C and at a pressure of 760 mm: Red emission … 1 m = 1553163,5λR ... It follows that the wavelengths of these emissions, always at 15 °C and at 760 mm, are (averages of three determinations): λR = 0,64384722μ" (where [1 μ = 1×10−6 m]"
^Jean-René Benoît, Charles Fabry, and Alfred Pérot (1907): "Nouvelle Détermination du mètre en longueurs d'ondes lumineuses" (= "A new determination of the metre in terms of the wavelength of light"). Comptes rendus hebdomadaires des séances de l'Académie des sciences, volume 144, pages 1082-1086.
^NIST CODATA - Committee on Data for Science and Technology (2024): "Angstrom star". Symbol: "Å*". Accessed on 2024-07-26.
^Curtis, I.; Morgan, I.; Hart, M.; Milne, A.D. (August 1971). "A New Determination of Avogadro's Number". In Langenberg, D. N.; Taylor, B.N. (eds.). Proceedings of the International Congress on Precision Measurement and Fundamental Constants (Report). Vol. 343. National Bureau of Standards. p. 285.
^International Astronomical Union (2012): "Resolution B2: On the re-definition of the astronomical unit of length". Proceedings of the XXVIII General Assembly of International Astronomical Union, Beijing, China. Quote: "... recommends ... 5. that the unique symbol 'au' be used for the astronomical unit."
^Oxford Journals (2012): "Instructions for Authors". Monthly Notices of the Royal Astronomical Society. Archived on 22 October 2012 Quote: "The units of length/distance are Å, nm, μm, mm, cm, m, km, au, light-year, pc."
^American Astronomical Society (2016): "Manuscript Preparation: AJ & ApJ Author Instructions". Archived on 2016-02-21. Quote: "Use standard abbreviations for ... natural units (e.g., au, pc, cm)."
External links
Look up angstrom in Wiktionary, the free dictionary.