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hardly relativistic -> ultrarelativistic, since the question seems to be about the latter rather than the former
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Robin Ekman
Robin Ekman
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Easy formula for hardly relativisticultrarelativistic bremsstrahlung?

added 18 characters in body
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peterh
peterh
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I am very curious if an easy calculable formuleformula for the bremstrahlung radiation of deeply relativistic, charged particles exists, if they are moving on circular orbit.:

$P(E,m_0,Q,r)=?$

...where

  • $P$ is the power of the Brehmstrahlung radiationBremstrahlung radiation;
  • $E$ is the total kinetic energy of the particles (we are in deeply relativistic case, thus $E\gg{m_0}c^2$);
  • $m_0$ is the total rest mass of the particlesparticles;
  • $Q$ is the total charge of the particlesparticles;
  • and $r$ is the radius of the orbit.

If a such clean, trivial formula don'tdoesn't exist, a link were also okay, where it can be found.

I am very curious if an easy calculable formule for the bremstrahlung radiation of deeply relativistic, charged particles exists if they are moving on circular orbit.

$P(E,m_0,Q,r)=?$

...where

  • $P$ is the power of the Brehmstrahlung radiation
  • $E$ is the total kinetic energy of the particles (we are deeply relativistic, thus $E\gg{m_0}c^2$)
  • $m_0$ is the total rest mass of the particles
  • $Q$ is the total charge of the particles
  • $r$ is the radius of the orbit.

If a such clean, trivial formula don't exist, a link were also okay, where it can be found.

I am very curious if an easy calculable formula for the bremstrahlung radiation of deeply relativistic, charged particles exists, if they are moving on circular orbit:

$P(E,m_0,Q,r)=?$

...where

  • $P$ is the power of the Bremstrahlung radiation;
  • $E$ is the total kinetic energy of the particles (we are in deeply relativistic case, thus $E\gg{m_0}c^2$);
  • $m_0$ is the total rest mass of the particles;
  • $Q$ is the total charge of the particles;
  • and $r$ is the radius of the orbit.

If a such clean, trivial formula doesn't exist, a link were also okay, where it can be found.

Source Link
peterh
peterh
  • 8.3k
  • 12
  • 45
  • 64

Easy formula for hardly relativistic bremsstrahlung?

I am very curious if an easy calculable formule for the bremstrahlung radiation of deeply relativistic, charged particles exists if they are moving on circular orbit.

$P(E,m_0,Q,r)=?$

...where

  • $P$ is the power of the Brehmstrahlung radiation
  • $E$ is the total kinetic energy of the particles (we are deeply relativistic, thus $E\gg{m_0}c^2$)
  • $m_0$ is the total rest mass of the particles
  • $Q$ is the total charge of the particles
  • $r$ is the radius of the orbit.

If a such clean, trivial formula don't exist, a link were also okay, where it can be found.