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(,’) @ 135 MeV - 36 MeV/n isospin selective excitation (isoscalar probe) & photon de-excitation

(,’) @ 135 MeV - 36 MeV/n isospin selective excitation (isoscalar probe) & photon de-excitation H.J Wörtche KVI / RuG. nuclear resonance fluorescence, TUD Darmstadt, A. Zilges E1 strength of order 1% EWSR below threshold nature speculative, how does it correlate to Coulomb breakup.

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(,’) @ 135 MeV - 36 MeV/n isospin selective excitation (isoscalar probe) & photon de-excitation

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  1. (,’) @ 135 MeV - 36 MeV/n isospin selective excitation (isoscalar probe) & photon de-excitation H.J Wörtche KVI / RuG

  2. nuclear resonance fluorescence, TUD Darmstadt, A. Zilges E1 strength of order 1% EWSR below threshold nature speculative, how does it correlate to Coulomb breakup

  3. nuclear resonance fluorescence, TUD Darmstadt, A. Zilges E1 strength of order 1% EWSR below threshold nature speculative, how does it correlate to Coulomb breakup

  4. 135 MeV alphas (36 MeV/n)

  5. 48Ca

  6. Deniz Savran, TUD Darmstadt/KVI

  7. nuclear resonance fluorescence, TUD Darmstadt, A. Zilges E1 strength of order 1% EWSR below threshold nature speculative, how does it correlate to Coulomb breakup

  8. preliminary 140Ce Deniz Savran, TUD Darmstadt/KVI

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