| 1. | Cyclotron radiation would likely be produced in a high altitude nuclear explosion.
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| 2. | The recoil experienced by a particle emitting cyclotron radiation is called radiation reaction.
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| 3. | In a strong magnetic field cyclotron radiation is even larger than the bremsstrahlung.
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| 4. | Due to an effect now known as cyclotron radiation, these electrons radiate radio frequency energy.
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| 5. | Cyclotron radiation is emitted by all charged particles travelling through magnetic fields, not just those in cyclotrons.
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| 6. | Cyclotron radiation from power ( energy per unit time ) of the emission of each electron can be calculated:
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| 7. | These speed changes can be caused by Bremsstrahlung radiation or cyclotron radiation or synchrotron radiation or electric field interactions.
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| 8. | In a megatesla field, an electron would lose its energy to cyclotron radiation in a few picoseconds if the radiation could escape.
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| 9. | If the reason is deflection by a magnetic field, the radiation is Cyclotron radiation at low speeds and Synchrotron radiation at high speeds.
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| 10. | In this well-known case, the cyclotron radiation is trapped inside the plasmoid and cannot escape, except from a very thin surface layer.
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