Difference between revisions of "Electronics We Need to Collect"

Revision as of 11:43, 21 July 2008

It'll hit our target and neutrons will be collected.

B _{n ^o} = .1

P _n = 1.04 MeV/c

1/V = 10nsec/foot => Detector must be > 5 feet from target.

Discriminating Signals

Round up electronics
Set up electrons
NIM bin
Mounting system
Polarization
Find as many scalers as possible.
Check Dr. Dale's calculations
- Given the collimator's 17" -> can the electron which makes a neutron get through the collimator?
Will it burn a hole through the collimator?
- 1 KH
- 50 nsec pulse width
- 80 MA peak current
- 1 mm beam size
- No Conduction
Radiated cooling

@@ Line 10: / Line 10: @@
 Discriminating Signals
+[[Image:what we'd like to see with d20.jpg|left|350 px|What we'd like to see with D20]]  [[Image:what we'd like to see with h20.jpg|right|350 px|What we'd like to see with H20 and our empty target]]
-What we'd like to see with D <sub> 2 </sub> 0
-[[Image:what we'd like to see with d20.jpg|left|350 px|What we'd like to see with D20]]  [[Image:what we'd like to see with h20.jpg|right|350 px|What we'd like to see with H20 and our empty target]]
+==What We Need==
+* n <sup>o</sup> detectors
+* High voltage
+* Splitters
+* Discriminators
+* Scalers
+* NIM bin
+* FAN
+* Oscilloscope
+* Delay
+* Cables
+==What Else Needs to be Done?==
+* Round up electronics
+* Set up electrons
+* NIM bin
+* Mounting system
+* Polarization
+* Find as many scalers as possible.
+* Check Dr. Dale's calculations
+** Given the collimator's 17" -> can the electron which makes a neutron get through the collimator?
+* Will it burn a hole through the collimator?
+** 1 KH
+** 50 nsec pulse width
+** 80 MA peak current
+** 1 mm beam size
+** No Conduction
+* Radiated cooling