Setup TDR: Baseline fixed in Madison

1. Setup TDR
   
2. Shielding in Muon Endcap
   
3. Summary plot for flux in the muon endcap system versus eta and occupancies calculated from cluster size = 5 strips x 400 ns
   
4. Fluxes of neutrons and gammas
   
5. Fluxes of electron/positrons and charged particles
   
6. Fluxes of neutrons
   
7. Fluxes of gammas
   
8. Fluxes of charged particles
   
9. Fluxes of electrons
   
10. Radiation and contact doses
    
11. Fluxes (Hz/cm^2) of neutrons, gamma, e+/- and charged particles versus radius for ME11 as plots or me11.table
    
12. Fluxes (Hz/cm^2) of neutrons, gamma, e+/- and charged particles versus radius for ME12 as plots or me12.table
    
13. Fluxes (Hz/cm^2) of neutrons, gamma, e+/- and charged particles versus radius for ME13 as plots or me13.table
    
14. Fluxes (Hz/cm^2) of neutrons, gamma, e+/- and charged particles versus radius for ME21 as plots or me21.table
    
15. Fluxes (Hz/cm^2) of neutrons, gamma, e+/- and charged particles versus radius for ME22 as plots or me22.table
    
16. Fluxes (Hz/cm^2) of neutrons, gamma, e+/- and charged particles versus radius for ME31 as plots or me31.table
    
17. Fluxes (Hz/cm^2) of neutrons, gamma, e+/- and charged particles versus radius for ME32 as plots or me32.table
    
18. Fluxes (Hz/cm^2) of neutrons, gamma, e+/- and charged particles versus radius for ME41 as plots or me41.table
    
19. Fluxes (Hz/cm^2) of neutrons, gamma, e+/- and charged particles versus radius for ME42 as plots or me42.table
    
20. Shielding in Muon Endcap with concrete replaced by steel
    
21. Rates of punch through hits per strip for `neutron job` (2000 events), 'punch through job' (primary particles with pT > 1 GeV/c, |eta| < 6, cut all secondaries with momentum less than 1 GeV in the tracker - 200 Kevents), 'punch through job' with cocrete replaced by steel (100 Kevents)