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Radiation Detection and Measurement, JU, 1st Semester, 2008-2009 (Saed Dababneh). 1 If t 1/2 is too long, How can we measure N? If t 1/2 is too short,

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Presentation on theme: "Radiation Detection and Measurement, JU, 1st Semester, 2008-2009 (Saed Dababneh). 1 If t 1/2 is too long, How can we measure N? If t 1/2 is too short,"— Presentation transcript:

1 Radiation Detection and Measurement, JU, 1st Semester, 2008-2009 (Saed Dababneh). 1 If t 1/2 is too long, How can we measure N? If t 1/2 is too short, multiscaling or coincidences or Doppler or..! Multiscaling Multiscaling, dwell time, accept logic pulses, register number of logic pulses during dwell time in successive channels  decay curve. If t 1/2 is less than 1 ms, need high activity, detector and electronics maximum count rate!! say 10 5 /s, dwell time 1 ms, maximum counts per channel = 100  bad statistics!! Coincidences….. Doppler……. Doppler……. Radioactivity HW 4 Specific activity. Project 1

2 Radiation Detection and Measurement, JU, 1st Semester, 2008-2009 (Saed Dababneh). 2 RadioactivityTAC TAC

3 Radiation Detection and Measurement, JU, 1st Semester, 2008-2009 (Saed Dababneh). 3 Radioactivity If parent nucleus decays by two modes: Derive.

4 Radiation Detection and Measurement, JU, 1st Semester, 2008-2009 (Saed Dababneh). 4 Radioactivity two If we measure gross activity for a sample containing two isotopes. Better, and if possible, measure each isotope separately using its signatures with suitable spectroscopic techniques. We will encounter such techniques later in this course.

5 Radiation Detection and Measurement, JU, 1st Semester, 2008-2009 (Saed Dababneh). 5 Radioactivity If radioactive species 1 is produced in a reactor or accelerator with rate R. R = N 0  I Flux (~10 14 s -1 cm -2 ) Xsection (~b) Almost constant! ProductionDecay Show that and thus secular equilibrium almost linear “or current!!” HW 5

6 Radiation Detection and Measurement, JU, 1st Semester, 2008-2009 (Saed Dababneh). 6 Radioactivity How long should we irradiate? Activity per cost?

7 Radiation Detection and Measurement, JU, 1st Semester, 2008-2009 (Saed Dababneh). 7 Radioactivity If species 2 is radioactive. Possible also that species 3 is radioactive. 1  2  3  4 ….. until we reach a stable isotope. But for now let us consider species 3 to be stable. For the parent nucleus assume that N 1 (t=0)=N 0. For the daughters assume that N 2 (t=0) = N 3 (t=0) = 0. Verify the following: What if 2 = 0? What if 1 is very small? N 1 ( t ) = ? HW 6

8 Radiation Detection and Measurement, JU, 1st Semester, 2008-2009 (Saed Dababneh). 8 Secular equilibrium 1 is very small ( 1 << 2 ) ► For large time t, A 2  N 0 1 which is the limiting value for secular equilibrium. Constant activity ► production = decay. Radioactivity ▼ What if t ½ for 132 Te were 78d?

9 Radiation Detection and Measurement, JU, 1st Semester, 2008-2009 (Saed Dababneh). 9 Radioactivity Transient equilibrium If 1 is smaller than 2 ( 1 < 2 ), show that and correspondingly reproduce reproduce the following graphs (compare to Fig. 6.7 in Krane). Project 2a

10 Radiation Detection and Measurement, JU, 1st Semester, 2008-2009 (Saed Dababneh). 10 Radioactivity As t increases, but the activities themselves are not constant. 230 Th decays, in effect, with the decay constant of 234 U. Parallel !?

11 Radiation Detection and Measurement, JU, 1st Semester, 2008-2009 (Saed Dababneh). 11 Radioactivity Discuss the case when 1 is larger than 2 ( 1 > 2 ). Project 2b

12 Radiation Detection and Measurement, JU, 1st Semester, 2008-2009 (Saed Dababneh). 12 Radioactivity In general, 1  2  3  4 ….. until we reach a stable isotope. If N 0 of type 1 and N 2 (t=0) = N 3 (t=0) = … = 0 ► Bateman equations. Exclude the term ( k - k ). Project 3 Write an appropriate code.

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