Difference between revisions of "Sadiq Proposal Defense"
Jump to navigation
Jump to search
Line 11: | Line 11: | ||
{| border="1" cellpadding="4" | {| border="1" cellpadding="4" | ||
− | [[image:sadiq_phd_emittance_phase_space_ellipse.png | 200 px |thumb|Fig.1 Phase space ellipse <ref name="MConte08" | + | [[image:sadiq_phd_emittance_phase_space_ellipse.png | 200 px |thumb|Fig.1 Phase space ellipse <ref name="MConte08"> M. Conte and W. W. MacKay, "An Introduction To The Physics Of Particle Accelera |
tors", World Scientifc, Singapore, 2008, 2nd Edition, pp. 257-330. </ref>.]] | tors", World Scientifc, Singapore, 2008, 2nd Edition, pp. 257-330. </ref>.]] | ||
|} | |} |
Revision as of 20:45, 20 August 2011
Emittance
What is Emittance
In accelerator physics, Cartesian coordinate system was used to describe motion of the accelerated particles. Usually the z-axis of Cartesian coordinate system is set to be along the electron beam line as longitudinal beam direction. X-axis is set to be horizontal and perpendicular to the longitudinal direction, as one of the transverse beam direction. Y-axis is set to be vertical and perpendicular to the longitudinal direction, as another transverse beam direction.
For the convenience of representation, we use
to represent our transverse coordinates, while discussing emittance. And we would like to express longitudinal beam direction with . Our transverse beam profile changes along the beam line, it makes is function of , . The angle of a accelerated charge regarding the designed orbit can be defined as:
If we plot
vs. , we will get an ellipse. The area of the ellipse is an invariant, which is called Courant-Snyder invariant. The transverse emittance of the beam is defined to be the area of the ellipse, which contains 90% of the particles
References
<references/>
Using APA reference style.
Go back: Positrons