Impact parameter

In physics, the impact parameter b is defined as the perpendicular distance between the path of a projectile and the center of a potential field U(r) created by an object that the projectile is approaching (see diagram). It is often referred to in nuclear physics (see Rutherford scattering) and in classical mechanics.

Impact parameter b and scattering angle θ

The impact parameter is related to the scattering angle θ by[1]

where v is the velocity of the projectile when it is far from the center, and rmin is its closest distance from the center.[2][3]

Scattering from a hard sphere

The simplest example illustrating the use of the impact parameter is in the case of scattering from a sphere. Here, the object that the projectile is approaching is a hard sphere with radius . In the case of a hard sphere, when , and for . When , the projectile misses the hard sphere. We immediately see that . When , we find that [4]

Collision centrality

In high-energy nuclear physics — specifically, in colliding-beam experiments — collisions may be classified according to their impact parameter. Central collisions have , peripheral collisions have , and ultraperipheral collisions (UPCs) have , where the colliding nuclei are viewed as hard spheres with radius .[2]

Because the color force has an extremely short range, it cannot couple quarks that are separated by much more than one nucleon's radius; hence, strong interactions are suppressed in peripheral and ultraperipheral collisions. This means that final-state particle multiplicity (the total number of particles resulting from the collision), is typically greatest in the most central collisions, due to the partons involved having the greatest probability of interacting in some way. This has led to charged particle multiplicity being used as a common measure of collision centrality, as charged particles are much easier to detect than uncharged particles.[5]

Because strong interactions are effectively impossible in ultraperipheral collisions, they may be used to study electromagnetic interactions — i.e. photon–photon, photon–nucleon, or photon–nucleus interactions — with low background contamination. Because UPCs typically produce only two to four final-state particles, they are also relatively "clean" when compared to central collisions, which may produce hundreds of particles per event.

See also

References

  1. Landau L. D. and Lifshitz E. M. (1976) Mechanics, 3rd. ed., Pergamon Press. ISBN 0-08-021022-8 (hardcover) and ISBN 0-08-029141-4 (softcover).
  2. "What is the impact parameter in a scattering exper class 12 physics CBSE". www.vedantu.com. Retrieved 2021-09-03.
  3. mitopercourseware, MIT (3 September 2021). "Notes" (PDF).
  4. "Impact Parameter for Nuclear Scattering". hyperphysics.phy-astr.gsu.edu. Retrieved 2021-09-03.
  5. Drozhzhova, Tatiana (January 2017). "Centrality and collision event-plane determination in ALICE at the LHC". Journal of Physics: Conference Series. 798 (1): 012061. Bibcode:2017JPhCS.798a2061D. doi:10.1088/1742-6596/798/1/012061.


This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.