Random collection of basic information useful in nuclear physics
Stuff to add:
- Summary of http://clasweb.jlab.org/group_meeting_minutes/Physics/talks_2017/mestayer-4-17.pdf , also see https://userweb.jlab.org/~nathanh/UNGG/researchPresentation.pdf and http://clasweb.jlab.org/group_meeting_minutes/Physics/talks_2017/ctof-5-8.pdf
- QQ = 4 E E' sin^2(theta/2)
- QQ = (W^2 - Mp^2)/((1/x)-1)
- QQ = 2yEMpx
- QQ = (4E^2 sin^2(theta/2)) / (1 + \frac{2Esin^2(theta/2)}{Mx})
- M_x^2 = Mp^2 + (QQ/x)(1-z) + m_pi^2 - QQ + 2(sqrt(nu^2 + QQ)sqrt(Eh^2 - m_pi^2 - PT^2) - nu*Eh)
- see "nuclearPhyics" list in evernote
- other stuff from blue folder in backpack
- vim search/replace w/ increment:
:let i=1 | g/foo/s//\=i."morestuff"/ | let i=i+1- svt3D.png is a nice view of how the svt strips cross to allow tracking
- see https://clasweb.jlab.org/wiki/index.php/CLAS12_KPP/KPPDB for some SQL basics
- pi0 decay -> 2 photons: IM^2 = E_gamma1E_gamma2(1 - cos\theta) (might be a factor of 2 on RHS)