Ultrarelativistic limit

Template:Short description In physics, a particle is called ultrarelativistic when its speed is very close to the speed of light cScript error: No such module "Check for unknown parameters".. Notations commonly used are ${\displaystyle v\approx c}$ or ${\displaystyle \beta \approx 1}$ or ${\displaystyle \gamma \gg 1}$ where ${\displaystyle \gamma }$ is the Lorentz factor, ${\displaystyle \beta =v/c}$ and ${\displaystyle c}$ is the speed of light.

The energy of an ultrarelativistic particle is almost completely due to its kinetic energy ${\displaystyle E_k=(\gamma -1)m{c}^2}$. The total energy can also be approximated as ${\displaystyle E=\gamma m{c}^2\approx pc}$ where ${\displaystyle p=\gamma mv}$ is the Lorentz invariant momentum.

This can result from holding the mass fixed and increasing the kinetic energy to very large values or by holding the energy EScript error: No such module "Check for unknown parameters". fixed and shrinking the mass mScript error: No such module "Check for unknown parameters". to very small values which also imply a very large ${\displaystyle \gamma }$. Particles with a very small mass do not need much energy to travel at a speed close to ${\displaystyle c}$. The latter is used to derive orbits of massless particles such as the photon from those of massive particles (cf. Kepler problem in general relativity). Script error: No such module "Unsubst".

Ultrarelativistic approximations

Below are few ultrarelativistic approximations when ${\displaystyle \beta \approx 1}$. The rapidity is denoted ${\displaystyle w}$:

${\displaystyle 1-\beta \approx \frac{1}{2{\gamma }^2}}$

${\displaystyle w\approx \ln (2\gamma )}$

• Motion with constant proper acceleration: d ≈ e^aτ/(2a)Script error: No such module "Check for unknown parameters"., where Template:Mvar is the distance traveled, a = dφ/dτScript error: No such module "Check for unknown parameters". is proper acceleration (with aτ ≫ 1Script error: No such module "Check for unknown parameters".), Template:Mvar is proper time, and travel starts at rest and without changing direction of acceleration (see proper acceleration for more details).
• Fixed target collision with ultrarelativistic motion of the center of mass: E_CM ≈ √2E₁E₂Script error: No such module "Check for unknown parameters". where E₁Script error: No such module "Check for unknown parameters". and E₂Script error: No such module "Check for unknown parameters". are energies of the particle and the target respectively (so E₁ ≫ E₂Script error: No such module "Check for unknown parameters".), and E_CMScript error: No such module "Check for unknown parameters". is energy in the center of mass frame.

Accuracy of the approximation

For calculations of the energy of a particle, the relative error of the ultrarelativistic limit for a speed v = 0.95cScript error: No such module "Check for unknown parameters". is about 10Script error: No such module "Check for unknown parameters".%, and for v = 0.99cScript error: No such module "Check for unknown parameters". it is just 2Script error: No such module "Check for unknown parameters".%. For particles such as neutrinos, whose Template:Mvar (Lorentz factor) are usually above 10⁶Script error: No such module "Check for unknown parameters". (Template:Mvar practically indistinguishable from Template:Mvar), the approximation is essentially exact.

Other limits

The opposite case (v ≪ cScript error: No such module "Check for unknown parameters".) is a so-called classical particle, where its speed is much smaller than Template:Mvar. Its kinetic energy can be approximated by first term of the ${\displaystyle \gamma }$ binomial series:

${\displaystyle E_k=(\gamma -1)m{c}^2=\frac{1}{2}m{v}^2+[\frac{3}{8}m\frac{v^4}{c^2}+...+m{c}^2\frac{(2n)!}{2^{2n}(n!{)}^2}\frac{v^{2n}}{c^{2n}}+...]}$

See also

• Relativistic particle
• Classical mechanics
• Special relativity
• Aichelburg–Sexl ultraboost

References

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