1 / 13

Cross-Sections and Decay Rates

Cross-Sections and Decay Rates. There are three types of measurements one can make static properties of particles (mass, charge, etc.) decay rates (lifetimes/line-widths, branching ratios) cross-sections (inclusive, semi-inclusive, exclusive)

Download Presentation

Cross-Sections and Decay Rates

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Cross-Sections and Decay Rates • There are three types of measurements one can make • static properties of particles (mass, charge, etc.) • decay rates (lifetimes/line-widths, branching ratios) • cross-sections (inclusive, semi-inclusive, exclusive) • We will focus our attention on the dynamical properties of particles (decay rates and cross-sections), not because they are intrinsically more interesting than the static properties (mass, charge, etc.) but, rather, because they are more directly related to understanding CP violation. • Understanding the masses of particles, and the patterns of masses, is a key problem in particle physics, and we will address it, in part, next quarter. Physics 841

  2. Differential Cross-Sections • Classically, scattering from a point-like object, or a spherically symmetric potential, can be described in terms of the impact parameter of the incident particle with respect to the target and the (asymptotic) scattering angle. If the impact parameter is known, and the potential is known, the scattering angle is unique. While this is not true in the quantum mechanical world, understanding the classical picture is useful in developing intuition. • Cross-sections measure the strengths of interactions. We expect that • “larger” objects should have larger cross-sections • “stronger” potentials (or their equivalent) should have larger cross-sections Physics 841

  3. Classical Scattering Physics 841

  4. Hard Sphere Scattering Physics 841

  5. Classical Rutherford Scattering Physics 841

  6. More Rutherford Scattering 2 Physics 841

  7. nota bene: Fermi’s Golden Rule for Scattering Physics 841

  8. Lorentz Invariant Phase Space Physics 841

  9. Lorentz Invariant Phase Space, Continued Physics 841

  10. Transition Matrix Elements in Perturbation Theory - I Physics 841

  11. Transition Matrix Elements in Perturbation Theory - II Physics 841

  12. Transition Matrix Elements in Perturbation Theory - III Physics 841

  13. Transition Matrix Elements in Perturbation Theory - IV nota bene: Physics 841

More Related