Impedance of free space

Template:Short description

In electromagnetism, the impedance of free space, Template:Math, is a physical constant relating the magnitudes of the electric and magnetic fields of electromagnetic radiation travelling through free space. That is, $${\displaystyle Z_0=\frac{|𝐄|}{|𝐇|},}$$ where Template:Math is the electric field strength, and Template:Math is the magnetic field strength. Its presently accepted value isTemplate:Physconst

Template:Math,

where Ω is the ohm, the SI unit of electrical resistance. The impedance of free space (that is, the wave impedance of a plane wave in free space) is equal to the product of the vacuum permeability Template:Math and the speed of light in vacuum Template:Math. Before 2019, the values of both these constants were taken to be exact (they were given in the definitions of the ampere and the metre respectively), and the value of the impedance of free space was therefore likewise taken to be exact. However, with the revision of the SI that came into force on 20 May 2019, the impedance of free space as expressed with an SI unit is subject to experimental measurement because only the speed of light in vacuum Template:Math retains an exactly defined value.

The analogous quantity for a plane wave travelling through a dielectric medium is called the intrinsic impedance of the medium and designated Template:Mvar (eta). Hence Template:Math is sometimes referred to as the intrinsic impedance of free space,^[1] and given the symbol Template:Math.^[2] It has numerous other synonyms, including:

• wave impedance of free space,^[3]
• the vacuum impedance,^[4]
• intrinsic impedance of vacuum,^[5]
• characteristic impedance of vacuum,^[6]
• wave resistance of free space.^[7]

From the above definition, and the plane wave solution to Maxwell's equations, $${\displaystyle Z_0=\frac{|𝐄|}{|𝐇|}={\mu }_{0}c=\sqrt{\frac{{\mu }_0}{{\epsilon }_0}}=\frac{1}{{\epsilon }_{0}c},}$$ where

Template:Math H/m is the magnetic constant, also known as the permeability of free space,

Template:Math F/m is the electric constant, also known as the permittivity of free space,

Template:Math is the speed of light in free space,^[8][9]

The reciprocal of Template:Math is sometimes referred to as the admittance of free space and represented by the symbol Template:Math.

Between 1948 and 2019, the SI unit the ampere was defined by choosing the numerical value of Template:Math to be exactly Template:Nowrap. Similarly, since 1983 the SI metre has been defined relative to the second by choosing the value of Template:Math to be Template:Val. Consequently, until the 2019 revision,

${\displaystyle Z_0={\mu }_{0}c=4\pi \times 29.9792458\mathrm{\Omega }}$ exactly,

or

${\displaystyle Z_0={\mu }_{0}c=\pi \times 119.9169832\mathrm{\Omega }}$ exactly,

or

${\displaystyle Z_0=376.73031346177\dots \mathrm{\Omega }.}$

This chain of dependencies changed when the ampere was redefined on 20 May 2019.

It is very common in textbooks and papers written before about 1990 to substitute the approximate value 120Template:Pi ohms for Template:Math. This is equivalent to taking the speed of light Template:Math to be precisely Template:Val in conjunction with the then-current definition of Template:Math as Template:Nowrap. For example, Cheng 1989 states^[2] that the radiation resistance of a Hertzian dipole is

${\displaystyle R_r\approx 80{\pi }^2{\left(\frac{l}{\lambda }\right)}^2}$ (result in ohms; not exact).

This practice may be recognized from the resulting discrepancy in the units of the given formula. Consideration of the units, or more formally dimensional analysis, may be used to restore the formula to a more exact form, in this case to

${\displaystyle R_r=\frac{2\pi }{3}{Z}_0{\left(\frac{l}{\lambda }\right)}^2.}$

• Electromagnetic wave equation
• Mathematical descriptions of the electromagnetic field
• Near and far field
• Sinusoidal plane-wave solutions of the electromagnetic wave equation
• Space cloth
• Vacuum
• Wave impedance

• Template:Cite book