Ian Mills scite author profile

The International System of Units (SI) is founded on seven base units, the metre, kilogram, second, ampere, kelvin, mole and candela corresponding to the seven base quantities of length, mass, time, electric current, thermodynamic temperature, amount of substance and luminous intensity. At its 94th meeting in October 2005, the International Committee for Weights and Measures (CIPM) adopted a recommendation on preparative steps towards redefining the kilogram, ampere, kelvin and mole so that these units are linked to exactly known values of fundamental constants. We propose here that these four base units should be given new definitions linking them to exactly defined values of the Planck constant h, elementary charge e, Boltzmann constant k and Avogadro constant N A , respectively. This would mean that six of the seven base units of the SI would be defined in terms of true invariants of nature. In addition, not only would these four fundamental constants have exactly defined values but also the uncertainties of many of the other fundamental constants of physics would be either eliminated or appreciably reduced. In this paper we present the background and discuss the merits of these proposed changes, and we also present possible wordings for the four new definitions. We also suggest a novel way to define the entire SI explicitly using such definitions without making any distinction between base units and derived units. We list a number of key points that should be addressed when the new definitions are adopted by the General Conference on Weights and Measures (CGPM), possibly by the 24th CGPM in 2011, and we discuss the implications of these changes for other aspects of metrology.

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Anharmonic force constant calculations

Hoy

1972

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ASYM20: A Program for Force Constant and Normal Coordinate Calculations, with a Critical Review of the Theory Involved

Hedberg¹,

Mills²

1993

Journal of Molecular Spectroscopy

423

281

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Quantities, Units and Symbols in Physical Chemistry

Mills

Jones

1990

Vibrational Spectroscopy

197

242

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Force Constants and Dipole-Moment Derivatives of Molecules from Perturbed Hartree–Fock Calculations. I

1968

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General expressions for the force constants and dipole-moment derivatives of molecules are derived, and the problems arising in their practical application are reviewed. Great emphasis is placed on the use of the Hartree–Fock function as an approximate wavefunction, and a number of its properties are discussed and re-emphasised. The main content of this paper is the development of a perturbed Hartree–Fock theory that makes possible the direct calculation of force constants and dipole-moment derivatives from SCF–MO wavefunctions. Essentially the theory yields ∂φi / ∂RJα, the derivative of an MO with respect to a nuclear coordinate.

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Vibration–Rotation Structure in Asymmetric- and Symmetric-Top Molecules

Mills

1972

541

234

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On the relationship of normal modes to local modes in molecular vibrations

1985

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Redefinition of the kilogram: a decision whose time has come

et al. 2005

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The kilogram, the base unit of mass in the International System of Units (SI), is defined as the mass m(K) of the international prototype of the kilogram. Clearly, this definition has the effect of fixing the value of m(K) to be one kilogram exactly. In this paper, we review the benefits that would accrue if the kilogram were redefined so as to fix the value of either the Planck constant h or the Avogadro constant N A instead of m(K), without waiting for the experiments to determine h or N A currently underway to reach their desired relative standard uncertainty of about 10 −8 . A significant reduction in the uncertainties of the SI values of many other fundamental constants would result from either of these new definitions, at the expense of making the mass m(K) of the international prototype a quantity whose value would have to be determined by experiment. However, by assigning a conventional value to m(K), the present highly precise worldwide uniformity of mass standards could still be retained. The advantages of redefining the kilogram immediately outweigh any apparent disadvantages, and we review the alternative forms that a new definition might take.

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Ian Mills

Redefinition of the kilogram, ampere, kelvin and mole: a proposed approach to implementing CIPM recommendation 1 (CI-2005)

Anharmonic force constant calculations

ASYM20: A Program for Force Constant and Normal Coordinate Calculations, with a Critical Review of the Theory Involved

Quantities, Units and Symbols in Physical Chemistry

Force Constants and Dipole-Moment Derivatives of Molecules from Perturbed Hartree–Fock Calculations. I

Vibration–Rotation Structure in Asymmetric- and Symmetric-Top Molecules

On the relationship of normal modes to local modes in molecular vibrations

Redefinition of the kilogram: a decision whose time has come

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