The thomson is defined as^[2]

${\displaystyle 1~\mathrm {Th} =1~{\frac {\mathrm {Da} }{e}}\approx 1.036426\times 10^{-8}\,\mathrm {kg{\cdot }C^{-1}} }$ 

where Da is the symbol for the unit dalton (also called the unified atomic mass unit, symbol u), and e is the elementary charge which is the unit of electric charge in the system of atomic units.

For example, the ion C₇H₇²⁺ has a mass of 91 Da. Its charge number is +2, and hence its charge is 2e. The ion will be observed at 45.5 Th in a mass spectrum.

The thomson allows for negative values for negatively charged ions. For example, the benzoate anion would be observed at −121 Th since the charge is −e.

The thomson has been used by some mass spectrometrists, for example Alexander Makarov—the inventor of the Orbitrap—in a scientific poster,^[3] and a 2015 presentation.^[4] Other uses of the thomson include papers,^[5][6] and (notably) one book.^[2] The journal Rapid Communications in Mass Spectrometry (in which the original article appeared) states that "the thomson (Th) may be used for such purposes as a unit of mass-to-charge ratio although it is not currently approved by IUPAP or IUPAC."^[7] Even so, the term has been called "controversial" by RCM's former Editor-in Chief^[8] (in a review the Hoffman text cited above^[2]). The book, Mass Spectrometry Desk Reference, argues against the use of the thomson.^[9] However, the editor-in-chief of the Journal of the Mass Spectrometry Society of Japan has written an editorial in support of the thomson unit.^[10]

The thomson is not an SI unit, nor has it been defined by IUPAC.

Since 2013, the thomson is deprecated by IUPAC (Definitions of Terms Relating to Mass Spectrometry).^[11][12] Since 2014, Rapid Communications in Mass Spectrometry regards the thomson as a "term that should be avoided in mass spectrometry publications".^[13]