Planck charge

In physics, the Planck charge, denoted by ${\displaystyle q_{\text{P}}}$, is one of the base units in the system of natural units called Planck units. It is a quantity of electric charge defined in terms of fundamental physical constants.

The Planck charge is defined as:^[1][2]

${\displaystyle q_{\text{P}}={\sqrt {4\pi \epsilon _{0}\hbar c}}={\frac {e}{\sqrt {\alpha }}}\approx 1.875\;5459\times 10^{-18}}$ coulombs,

where

${\displaystyle c\ }$ is the speed of light in the vacuum

${\displaystyle \hbar }$ is the reduced Planck constant

${\displaystyle \epsilon _{0}\ }$ is the permittivity of free space

${\displaystyle e\ }$ is the elementary charge

${\displaystyle \alpha \ }$ is the fine structure constant.

From a classical calculation,^[3] the electric potential energy of one Planck charge on the surface of a sphere that is one Planck length in diameter is one Planck energy.

The Gaussian cgs units are defined so that ${\displaystyle 4\pi \epsilon _{0}=1}$, in which case ${\displaystyle q_{\text{P}}}$ has the following simple form,

${\displaystyle q_{\text{P}}={\sqrt {\hbar c}}.}$

It is customary in theoretical physics to adopt the Lorentz–Heaviside units (also known as rationalized cgs). When made natural (${\displaystyle \hbar =1}$, ${\displaystyle c=1}$), they are like the SI system with ${\displaystyle \epsilon _{0}=\mu _{0}=1}$. Therefore, it is more appropriate to instead define the Planck charge as

${\displaystyle q'_{\text{P}}={\sqrt {\epsilon _{0}\hbar c}}={\frac {e}{\sqrt {4\pi \alpha }}}\approx 5.291\times 10^{-19}}$ coulombs.

When charges are measured in units of ${\displaystyle q'_{\text{P}}}$, which is commonly used in quantum field theory, we have

${\displaystyle e\approx 0.30282212088~q_{\text{P}}'}$.

See also

• Orders of magnitude (charge)

Notes and references

1. Stock, Michael; Witt, Thomas J (2006). "CPEM 2006 round table discussion 'Proposed changes to the SI'". Metrologia. 43 (6): 583. Bibcode:2006Metro..43..583S. doi:10.1088/0026-1394/43/6/014.
2. Pavšič, Matej (2001). The Landscape of Theoretical Physics: A Global View. Dordrecht: Kluwer Academic. pp. 347–352. ISBN 0-7923-7006-6.
3. The Feynman Lectures on Physics, Volume II, ch. 8: Electrostatic Energy

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