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Lecture I.1 Nuclear Structure Observables Alexandru Negret.

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1 Lecture I.1 Nuclear Structure Observables Alexandru Negret

2 Lecture I.1 – Nuclear Structure Observables A. Negret Bibliography G. Vladuca – Elemente de fizica nucleara A. Bohr, B. Mottelson – Nuclear structure K. Heyde – Basic idea and concepts in nuclear physics R. Casten – Nuclear structure from a simple perspective Wikipedia

3 Lecture I.1 – Nuclear Structure Observables A. Negret Outline Physical Observables; Spectra and histograms; Nuclear spectra; Continuous and discrete spectra; Statistics; The Gauss distribution; The central limit theorem

4 Lecture I.1 – Nuclear Structure Observables A. Negret Physical observables Avoiding any formula from quantum mechanics, in the present course, by physical observable we mean any propriety of the nucleus that can be measured or determined. We include here things like the level energies, spin and parities, branching ratios, etc. We exclude things like interaction potentials, wave functions, etc.

5 X=100 X=102 Lecture I.1 – Nuclear Structure Observables A. Negret Spectra and histograms The atomic nucleus is a quantum system. In quantum mechanics all phenomena are described by probabilities. In order to record probabilities we need spectra. A spectrum is a representation of an observable that can be histogramed: EXPERIMENT X=? X=99 X=102 X Counts 1 2 99 101100 102

6 Lecture I.1 – Nuclear Structure Observables A. Negret Examples of spectra Continuous and discrete spectra Projectile Target Angular distribution  Ejectile Recoil nucleus Energy Energy spectrum

7 Lecture I.1 – Nuclear Structure Observables A. Negret Exercise: continuous or discrete? The beta spectrum of a nucleus undergoing beta decayThe gamma spectrum of a nucleus excited in a nuclear reaction

8 Lecture I.1 – Nuclear Structure Observables A. Negret A few more words on statistics Nuclear processes are of statistical nature. Therefore we will have to deal with distributions, averages, uncertainties, etc. We measure x and y n times: x 1, x 2, … x i, … x n and y 1, y 2, … y i, … y n. Then: Expected value: Variance: Covariance: n is very large. Cov(x,y) = E[(x-E(x))(y-E[y])] Var(x) = Cov(x,x) =  2 Standard deviation; (sometimes uncertainty) Error propagation f(x,y):

9 Lecture I.1 – Nuclear Structure Observables A. Negret The Gauss distribution The Gauss (Normal) distribution models the detection resolution of many experimental devices.

10 Lecture I.1 – Nuclear Structure Observables A. Negret Question: Why did I discuss the Gauss Distribution? The Gauss distribution models the detection resolution of many experimental devices. Why? Central limit theorem: The sum of a large number of random variables has a normal distribution. As an experimentalist, if you make sufficient randomly distributed mistakes, the average of your results will be the correct result!!! Also: if the experimental setup is sufficiently complicated and each component introduces an error, the final result is distributed on a Gauss distribution and the average value is the real experimental value.

11 Lecture I.1 – Nuclear Structure Observables A. Negret Exercise: Uncertainty for an efficiency determination Gamma source Gamma detector We make an measurement and we count N detected gamma rays. The producer of the gamma source provides the activity of the source at a reference date Efficienciency:  = N detected / N emitted How do we practically calculate   

12 Lecture I.1 – Nuclear Structure Observables A. Negret Summary Physical Observables; Spectra and histograms; Nuclear spectra; Continuous and discrete spectra; Statistics; The Gauss distribution; The central limit theorem

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