Difference between revisions of "Lab Manuals"

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<li>Parts of the Accelerator</li>
 
<li>Parts of the Accelerator</li>
 
<ul>
 
<ul>
<li>The Ion Source</li>
+
<li>The [[Ion Source]]</li>
<li>The Tandem</li>
+
The CASE Nuclear Structure Lab ion source is a General Ionex 860A (now part of High Voltage Europa [http://www.highvolteng.com/Ion_Accelerator_Systems.html HVEE]), purchased in 1983. It is a negative ion source capable of making microAmp beams of most elements from the periodic table (exceptions include noble gases). 
<li>The Target Room</li>
+
<li>The [[Tandem]]</li>
 +
The CASE Nuclear Structure Lab accelerator is the FN-8 Tandem Van de Graaff built by High Voltage Engineering Corporation in 1967. It uses a pelletized charging chain to create voltages up to 8 Million Volts,
 +
<li>The [[Target Room]]</li>
 +
The CASE NSL Target Room has 6 beamlines available for experiments in nuclear physics, atomic physics, condensed matter, radiation damage and Accelerator Mass Spectromtry.
 
<li>Detection</li>
 
<li>Detection</li>
 
<ul>
 
<ul>

Revision as of 14:33, 12 August 2010

Sections for the lab manuals page:

  • Theory
  • Parts of the Accelerator
    • The Ion Source
    • The CASE Nuclear Structure Lab ion source is a General Ionex 860A (now part of High Voltage Europa HVEE), purchased in 1983. It is a negative ion source capable of making microAmp beams of most elements from the periodic table (exceptions include noble gases).

    • The Tandem
    • The CASE Nuclear Structure Lab accelerator is the FN-8 Tandem Van de Graaff built by High Voltage Engineering Corporation in 1967. It uses a pelletized charging chain to create voltages up to 8 Million Volts,

    • The Target Room
    • The CASE NSL Target Room has 6 beamlines available for experiments in nuclear physics, atomic physics, condensed matter, radiation damage and Accelerator Mass Spectromtry.

    • Detection
      • For the 27Al (p,n) 27Si experiment
      • For the 11B (p,n) 11C experiment