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04/04/2014PHY 712 Spring 2014 -- Lecture 271 PHY 712 Electrodynamics 10-10:50 AM MWF Olin 107 Plan for Lecture 27: Continue reading Chap. 14 – Synchrotron.

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Presentation on theme: "04/04/2014PHY 712 Spring 2014 -- Lecture 271 PHY 712 Electrodynamics 10-10:50 AM MWF Olin 107 Plan for Lecture 27: Continue reading Chap. 14 – Synchrotron."— Presentation transcript:

1 04/04/2014PHY 712 Spring 2014 -- Lecture 271 PHY 712 Electrodynamics 10-10:50 AM MWF Olin 107 Plan for Lecture 27: Continue reading Chap. 14 – Synchrotron radiation 1.Radiation from electron synchrotron devices 2.Radiation from astronomical objects in circular orbits

2 04/04/2014PHY 712 Spring 2014 -- Lecture 272

3 04/04/2014PHY 712 Spring 2014 -- Lecture 273 Power distribution for circular acceleration y z x    r  Radiation from charged particle in circular path

4 04/04/2014PHY 712 Spring 2014 -- Lecture 274 Spectral composition of electromagnetic radiation -- continued

5 04/04/2014PHY 712 Spring 2014 -- Lecture 275 Synchrotron radiation light source installations Synchrotron radiation center in Madison, Wisconsin E c =0.5 GeV and 1 GeV; c = 20 Å and 10 Å http://www.src.wisc.edu/

6 04/04/20146PHY 712 Spring 2014 -- Lecture 27 SRC – “Aladdin” -- Madison Wisconsin

7 04/04/2014PHY 712 Spring 2014 -- Lecture 277 http://www.bnl.gov/ps/ Brookhaven National Laboratory – National Light Source E c =0.6 GeV; c = 20 Å

8 04/04/2014PHY 712 Spring 2014 -- Lecture 278 y z x    r  y x  Top view:

9 04/04/2014PHY 712 Spring 2014 -- Lecture 279 y z x    r 

10 04/04/2014PHY 712 Spring 2014 -- Lecture 2710 y z x    r 

11 04/04/2014PHY 712 Spring 2014 -- Lecture 2711

12 04/04/2014PHY 712 Spring 2014 -- Lecture 2712 Modified Bessel functions Exponential factor Some details:

13 04/04/2014PHY 712 Spring 2014 -- Lecture 2713

14 04/04/2014PHY 712 Spring 2014 -- Lecture 2714 The second example of synchroton radiation comes from a distant charged particle moving in a circular trajectory such that the spectrum represents a superposition of light generated over many complete circles. In this case, there is an interference effect which results in the spectrum consisting of discrete multiples of v  For this case we need to reconsider the analysis. There is a very convenient Bessel function identity of the form:

15 04/04/2014PHY 712 Spring 2014 -- Lecture 2715 Astronomical synchrotron radiation -- continued:

16 04/04/2014PHY 712 Spring 2014 -- Lecture 2716 Astronomical synchrotron radiation -- continued: In both of the expressions, the sum over m includes both negative and positive values. However, only the positive values of  and therefore positive values of m are of interest. Using the identity: the result becomes: These results were derived by Julian Schwinger (Phys. Rev. 75, 1912-1925 (1949)). The discrete case is similar to the result quoted in Problem 14.15 in Jackson's text. For information on man-made synchrotron sources, the following web page is useful: http://www.als.lbl.gov/als/synchrotron_sources.html. http://www.als.lbl.gov/als/synchrotron_sources.html

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