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Nuclear Physics

Nuclear Physics. A biased view. Nuclear Physics. Applications. Detection techniques. ions. e -. Nuclear matter. EELS -energy filtered imaging. Halo nuclei. g. Micro dosimetry. Environmental radiation. Safety analyses. Nuclear Physics.

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Nuclear Physics

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  1. Nuclear Physics A biased view Nuclear Physics Applications Detection techniques ions e- Nuclear matter EELS -energy filtered imaging Halo nuclei g Micro dosimetry Environmental radiation Safety analyses

  2. Nuclear Physics Safety analyses of a repository for nuclear waste Antonio Pereira, Bruno Mendes, Robert Broed Radiation damage in the biological cell David Liljequist Halo nuclei Katarina Wilhelmsen Rolander, Linda Gerén, Karin Lindh, Per-Erik Tegnér, ChrB

  3. Nuclear Physics ions Properties of nuclear matter Kjell Fransson Linda Gerén Lennart Holmberg Kalle Lindberg Per-Erik Tegnér Katarina Wilhelmsen Rolander ChrB

  4. Nuclear Physics ions Deeply Bound Pionic Atoms The width and the binding energy of the 1S state give information on the local (s-wave) part of the optical potential, which in turn gives information on pion properties in the nuclear medium.  Partial restoration of chiral symmetry?

  5. Nuclear Physics ions HOW:d + 136Xe 135Xep + 3Hed + n p- + 3He Cluster target of xenon 1013 atoms per cm2

  6. Nuclear Physics ions ZERO-degree spectrometer DE  800 keV for 350MeV 3He

  7. Nuclear Physics Sampled pulses ions E  v  B 15 mm

  8. Nuclear Physics ions Detector elements made in Jülich 6636 mm2 position sensitive Three arm spectrometer

  9. Nuclear Physics e- Electron Energy Loss Spectroscopy Stefan Csillag Susanne Nyquist Esteban Urones Per-Gustaf Åstrand

  10. Nuclear Physics e- Single electron detection

  11. Nuclear Physics e-

  12. Nuclear Physics e-

  13. Nuclear Physics e-

  14. Nuclear Physics e-

  15. Nuclear Physics e-

  16. Nuclear Physics e-

  17. Nuclear Physics g Environmental gamma radiation Jan Blomquist Kjell Fransson David Liljequist Gilberto Batres Pia Nilsson Per-Erik Tegnér ChrB

  18. Nuclear Physics g 0.5 g/cm2 2.0 g/cm2 8.0 g/cm2 Environmental in situ gamma spectroscopy

  19. Nuclear Physics CdTe detectors g  Eg=662 keV + - Sampled preamp. pulses (full energy deposited). 2mm For holes: td = 3.6µs  = 2.5µs Pulse-height spectrum

  20. Nuclear Physics g Interaction depth vs. pulse height (after analysis) Projection on pulse-height axis. + - Energy spectrum after analysis depth

  21. Nuclear Physics g

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