nLab Planck mass

Contents

Formalism

Definition

Spacetime configurations

Properties

Spacetimes

black hole spacetimes	vanishing angular momentum	positive angular momentum
vanishing charge	Schwarzschild spacetime	Kerr spacetime
positive charge	Reissner-Nordstrom spacetime	Kerr-Newman spacetime

Quantum theory

Idea

The fundamental physical unit of mass.

About $10^{19}$ GeV.

Two important physical units of length induced by a mass $m$ are

where

Solving the equation

\array{ & \ell_m &=& r_m \\ \Leftrightarrow & 2\pi\hbar / m c &=& 2 m G / c^2 }

for $m$ yields the Planck mass

m_{P} \coloneqq \tfrac{1}{\sqrt{\pi}} m_{\ell = r} = \sqrt{\frac{\hbar c}{G}} \,.

The corresponding Compton wavelength $\ell_{m_{P}}$ is given by the Planck length $\ell_P$

\ell_{P} \coloneqq \tfrac{1}{2\pi} \ell_{m_P} = \sqrt{ \frac{\hbar G}{c^3} } \,

fundamental scales (fundamental/natural physical units)

speed of light $\,$ $c$
Planck's constant $\,$ $\hbar$
gravitational constant $\,$ $G_N = \kappa^2/8\pi$
Planck scale
- Planck length $\,$ $\ell_p = \sqrt{ \hbar G / c^3 }$
- Planck mass $\,$ $m_p = \sqrt{\hbar c / G}$
depending on a given mass $m$
- Compton wavelength $\,$ $\lambda_m = \hbar / m c$
- Schwarzschild radius $\,$ $2 m G / c^2$
- depending also on a given charge $e$
  - Schwinger limit $\,$ $E_{crit} = m^2 c^3 / e \hbar$
GUT scale
string scale
- string tension $\,$ $T = 1/(2\pi \alpha^\prime)$
- string length scale $\,$ $\ell_s = \sqrt{\alpha'}$
- string coupling constant $\,$ $g_s = e^\lambda$

Max Planck, Über irreversible Strahlungsvorgänge, Sitzungsberichte der Königlich Preußischen Akademie der Wissenschaften zu Berlin. 5: 440–480. pp. 478–80, 1899, (10.1002/andp.19003060105)