"Betatron" Example Sentences
1. The betatron is a type of circular accelerator used to accelerate electrons.
2. The magnetic field in the betatron is responsible for bending the electron beam.
3. Betatron radiation is a form of electromagnetic radiation emitted by charged particles in the betatron.
4. The betatron was invented in the 1940s as a means of producing high-energy electrons.
5. The betatron is capable of producing electron beams with energies up to several GeV.
6. The betatron is used in medical applications such as radiation therapy.
7. The betatron works by inducing a current in a vacuum chamber.
8. The betatron is a less expensive alternative to linear accelerators for certain applications.
9. The betatron was surpassed in popularity by the synchrotron in the 1950s.
10. The betatron has a relatively simple design compared to other types of accelerators.
11. Betatron oscillations can occur in the electron beam due to variations in the magnetic field.
12. The betatron was the first device capable of accelerating electrons to relativistic speeds.
13. Betatron frequency is the natural frequency of the electron beam when oscillating in the betatron.
14. The betatron was used to produce high-energy X-rays for early cancer detection.
15. The betatron is often used in particle physics research to study the properties of subatomic particles.
16. Betatron cooling is a technique used to reduce the emittance of the electron beam.
17. The betatron requires a source of high voltage to operate.
18. Betatron injection refers to the process of injecting electrons into the betatron for acceleration.
19. The betatron is typically used for low-intensity electron beams.
20. Betatron tuning involves adjusting the magnetic field strength to optimize electron acceleration.
21. The betatron has an advantage over linear accelerators in that it can produce electrons with a high degree of collimation.
22. Betatron losses occur when electrons collide with the walls of the vacuum chamber.
23. The betatron has been largely replaced by newer accelerator technologies such as the cyclotron and synchrotron.
24. Betatron trajectories can be described using a variety of mathematical models.
25. Betatron focusing is achieved by using a combination of magnetic and electric fields.
26. Betatron damping refers to the process of reducing the amplitude of betatron oscillations in the electron beam.
27. Betatron acceleration is a type of acceleration that utilizes a changing magnetic field.
28. The betatron is a key component of many industrial processes such as sterilization and material processing.
29. Betatron noise refers to the spurious signals generated by the electron beam as it oscillates in the betatron.
30. The betatron was one of the earliest examples of a particle accelerator.
Common Phases
you want me to simply list common phrases using "
betatron"? Sure, here are some options:
- The
betatron is a type of particle accelerator;
-
Betatrons were first developed in the 1940s;
-
Betatrons use magnetic fields to accelerate particles;
- The maximum energy of a
betatron is limited by its size and magnetic field strength;
-
Betatrons were largely replaced by newer particle accelerators in the 1960s and 70s;
-
Betatrons are still used for certain specialized applications, such as cancer therapy.