Difference between revisions of "09-07-2016"

From New IAC Wiki
Jump to navigation Jump to search
Line 11: Line 11:
 
| 5277 ||  || 11.1 MeV , 2 ns pulse width , 850 mA , 60 Hz , Collimators wide open , radiator out , Tuning
 
| 5277 ||  || 11.1 MeV , 2 ns pulse width , 850 mA , 60 Hz , Collimators wide open , radiator out , Tuning
 
|-
 
|-
| 5286 || || 11.1 MeV , 2 ns pulse width , 850 mA , 200 Hz , Collimators wide open , radiator 3/4" Al , Target is 3/4 thick Al @ 90 degree to beam [[File:5286.png|40px]]
+
| 5286 ||.18 || 11.1 MeV , 2 ns pulse width , 850 mA , 200 Hz , Collimators wide open , radiator 3/4" Al , Target is 3/4 thick Al @ 90 degree to beam [[File:5286.png|40px]]
 
|-
 
|-
 
| 5288 || || 11.1 MeV , 2 ns pulse width , 850 mA , 200 Hz , Collimators wide open , radiator Out , Target is 3/4 thick Al @ 90 degree to beam [[File:5288.png|40px]]
 
| 5288 || || 11.1 MeV , 2 ns pulse width , 850 mA , 200 Hz , Collimators wide open , radiator Out , Target is 3/4 thick Al @ 90 degree to beam [[File:5288.png|40px]]

Revision as of 16:53, 7 September 2016

No target collimator open

Beam Conditions
11.1 MeV , 2 ns pulse width


Run # D90 Rate (Counts/pulse) Configuration
5277 11.1 MeV , 2 ns pulse width , 850 mA , 60 Hz , Collimators wide open , radiator out , Tuning
5286 .18 11.1 MeV , 2 ns pulse width , 850 mA , 200 Hz , Collimators wide open , radiator 3/4" Al , Target is 3/4 thick Al @ 90 degree to beam 5286.png
5288 11.1 MeV , 2 ns pulse width , 850 mA , 200 Hz , Collimators wide open , radiator Out , Target is 3/4 thick Al @ 90 degree to beam 5288.png
5289 11.1 MeV , 2 ns pulse width , 850 mA , 200 Hz , Accelerator side collimator open, Cell side collimator closed , radiator Out , Target is 3/4 thick Al @ 90 degree to beam, Block cell on accelerator side to measure shower from beam dump with max e- hitting dump 5289.png
5290 11.1 MeV , 2 ns pulse width , 850 mA , 200 Hz , Accelerator side collimator open, Cell side collimator closed , radiator Out , Target is 3/4 thick Al @ 90 degree to beam, Block cell on accelerator side to measure shower from beam dump with max e- hitting dump, RF OFF a.k.a no beam 5290.png
5291 11.1 MeV , 2 ns pulse width , 850 mA , 200 Hz , Accelerator side collimator open, Cell side collimator closed , radiator 3/4" IN , Target is 3/4 thick Al @ 90 degree to beam, Block cell on accelerator side 5291.png
5292 11.1 MeV , 2 ns pulse width , 850 mA , 200 Hz , Accelerator side collimator open, Cell side collimator closed , radiator 1.5" IN , Target is 3/4 thick Al @ 90 degree to beam, Block cell on accelerator side 5292.png
5293 11.1 MeV , 2 ns pulse width , 850 mA , 200 Hz , Accelerator side collimator open, Cell side collimator OPEN , radiator 3/4" IN , Target is 3/4 thick Al @ 90 degree to beam, UNBlock cell on accelerator side Rate2nC 5293.png
5294 11.1 MeV , 2 ns pulse width , 850 mA , 200 Hz , Accelerator side collimator open, Cell side collimator OPEN , radiator 3/4" IN , Target is OUT, UNBlock cell on accelerator side Rate2nC 5294.png

DU cylinder target

Beam Conditions
11.1 MeV , 2 ns pulse width

1” Al radiator, collimator slit open, HV -1700V,*Find lowest thresholds to run.

Study forward detector gamma flas with Pb curtains

Thorium strip, collimator squeeze down.

No target run

Determine how many fissions per pulse.

run 1 mg HEU to see (probably miserable) rates

Exploratory measurements with 47% HEU.

CFD studies

P.S. sweep magnet in/out

Long run on Thorium

Long run on 1 mg HEU