Kinematics for the (e,e'd)p channel:

Since the (e,e'd) is a two-body breakup channel, the p_miss and the momentum d can be exactly calculated, if theta_{dq}, omega and q are known. I compared the calculations to the measurements, in order to better understand kinematics and to find better set of points that will be considered in the Golak's theoretical calculations.

Accessible kinematics for each bin in Pmiss:

01.) 02.) 03.) 04.)
05.) 06.) 07.) 08.)
09.) 10.) 11.) 12.)
13.)

Check:

I have double checked the calculations, by selecting only events with p_miss < 20MeV/c. The calculations and data agree.

14.)

Results for Bin 11:

Since low pmiss data are accessible only with Bin 11, I have concentrated on this bin, and tried to describe the obtained (Td vs. theta_dq) bananas. This is crucial for proper interpretation of the data.

To obtain the best agreement between the data and calculations, I had to consider the resolution effects of the BigBite spectrometer. Without this additional smearing, only part of measured bananas were covered.

p_miss = 18MeV/c:

15.) 16.) 17.) 18.)

p_miss = 54MeV/c:

19.) 20.) 21.) 22.)

p_miss = 102MeV/c:

23.) 24.) 25.) 26.)

p_miss = 126MeV/c:

27.) 28.) 29.) 30.)

p_miss = 150MeV/c:

31.) 32.) 33.) 34.)
Last modified: 07/18/12