Decay channel analysis - lise.nscl.msu.edulise.nscl.msu.edu/paper/decay_analysis_fragment.pdf ·...

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Decay channel analysis Decay channel analysis

Transcript of Decay channel analysis - lise.nscl.msu.edulise.nscl.msu.edu/paper/decay_analysis_fragment.pdf ·...

Page 1: Decay channel analysis - lise.nscl.msu.edulise.nscl.msu.edu/paper/decay_analysis_fragment.pdf · More intense channel to get 24O is 2O is 2αα++xnxn 48Ca+Ni --> 2424. O. 48. Ca+Ni

Decay channel analysisDecay channel analysis

Page 2: Decay channel analysis - lise.nscl.msu.edulise.nscl.msu.edu/paper/decay_analysis_fragment.pdf · More intense channel to get 24O is 2O is 2αα++xnxn 48Ca+Ni --> 2424. O. 48. Ca+Ni

Decay channel analysisDecay channel analysis

Page 3: Decay channel analysis - lise.nscl.msu.edulise.nscl.msu.edu/paper/decay_analysis_fragment.pdf · More intense channel to get 24O is 2O is 2αα++xnxn 48Ca+Ni --> 2424. O. 48. Ca+Ni

4848Ca+Ni Ca+Ni ----> > 2424OO

Page 4: Decay channel analysis - lise.nscl.msu.edulise.nscl.msu.edu/paper/decay_analysis_fragment.pdf · More intense channel to get 24O is 2O is 2αα++xnxn 48Ca+Ni --> 2424. O. 48. Ca+Ni

More intense channel to get More intense channel to get 2424O is 2O is 2αα++xnxn

4848Ca+Ni Ca+Ni ----> > 2424OO

Page 5: Decay channel analysis - lise.nscl.msu.edulise.nscl.msu.edu/paper/decay_analysis_fragment.pdf · More intense channel to get 24O is 2O is 2αα++xnxn 48Ca+Ni --> 2424. O. 48. Ca+Ni

4848Ca+Ni Ca+Ni -- Z=8 (left) and Z=16 (right)Z=8 (left) and Z=16 (right)

Page 6: Decay channel analysis - lise.nscl.msu.edulise.nscl.msu.edu/paper/decay_analysis_fragment.pdf · More intense channel to get 24O is 2O is 2αα++xnxn 48Ca+Ni --> 2424. O. 48. Ca+Ni

Excitation energy (method 3): Ex =const(Excitation energy (method 3): Ex =const(dAdA) ) sigsig(Ex)=const((Ex)=const(dAdA))

Page 7: Decay channel analysis - lise.nscl.msu.edulise.nscl.msu.edu/paper/decay_analysis_fragment.pdf · More intense channel to get 24O is 2O is 2αα++xnxn 48Ca+Ni --> 2424. O. 48. Ca+Ni

4848Ca+Ni Ca+Ni -- Z=8 (left) and Z=12 (right)Z=8 (left) and Z=12 (right)

Ex=10MeV/Ex=10MeV/dAdA, , sigsig(Ex) =10MeV/(Ex) =10MeV/dAdA

To produce 24OTo produce 24OEx & sig(Ex) Alpha n

13.4 & 9.6 0.89 0.05

10 & 10 0.26 0.59

Page 8: Decay channel analysis - lise.nscl.msu.edulise.nscl.msu.edu/paper/decay_analysis_fragment.pdf · More intense channel to get 24O is 2O is 2αα++xnxn 48Ca+Ni --> 2424. O. 48. Ca+Ni

Excitation energyExcitation energy

Widths versus mean values of excitation energy distributions obtained by matching EPAX values with the AA model.

Page 9: Decay channel analysis - lise.nscl.msu.edulise.nscl.msu.edu/paper/decay_analysis_fragment.pdf · More intense channel to get 24O is 2O is 2αα++xnxn 48Ca+Ni --> 2424. O. 48. Ca+Ni

Ex and Ex and sigsig(Ex) should be the function of (Ex) should be the function of dA dA in AAin AA

What do we know from experiments?What do we know from experiments?•• Decreasing the projectile velocity Decreasing the projectile velocity –– increase of production increase of production

crosscross--section of neutronsection of neutron--rich isotopesrich isotopes•• Target with large Z Target with large Z –– increase of production crossincrease of production cross--section section

of neutronof neutron--rich isotopesrich isotopes•• Low Exponential tail is due to dissipative processesLow Exponential tail is due to dissipative processes

Why?Why?•• Time of dissipation is increasingTime of dissipation is increasing•• Touching Area + Time of dissipation is Touching Area + Time of dissipation is

increasing due to target sizeincreasing due to target size

Touching area is ~ to square (Chord_min)Time of dissipation ~ to Chord_max & beam velocity

But Chords are functions of dA !

Page 10: Decay channel analysis - lise.nscl.msu.edulise.nscl.msu.edu/paper/decay_analysis_fragment.pdf · More intense channel to get 24O is 2O is 2αα++xnxn 48Ca+Ni --> 2424. O. 48. Ca+Ni

Dissipation process contribution defines a way to produce nucleuDissipation process contribution defines a way to produce nucleuss

Ex & sig(Ex) Alpha n13.4 & 9.6 0.89 0.0510 & 10 0.26 0.59

To produce To produce 2424OO

Page 11: Decay channel analysis - lise.nscl.msu.edulise.nscl.msu.edu/paper/decay_analysis_fragment.pdf · More intense channel to get 24O is 2O is 2αα++xnxn 48Ca+Ni --> 2424. O. 48. Ca+Ni

Excitation energy distribution changes due to dissipation. What Excitation energy distribution changes due to dissipation. What is shape??is shape??

Page 12: Decay channel analysis - lise.nscl.msu.edulise.nscl.msu.edu/paper/decay_analysis_fragment.pdf · More intense channel to get 24O is 2O is 2αα++xnxn 48Ca+Ni --> 2424. O. 48. Ca+Ni

Is there a correlation between the final fragment momentum Is there a correlation between the final fragment momentum distribution and prefragment excitation energy? distribution and prefragment excitation energy?

Page 13: Decay channel analysis - lise.nscl.msu.edulise.nscl.msu.edu/paper/decay_analysis_fragment.pdf · More intense channel to get 24O is 2O is 2αα++xnxn 48Ca+Ni --> 2424. O. 48. Ca+Ni

Or Is there a correlation between the final fragment momentum Or Is there a correlation between the final fragment momentum distribution and the chain of decays? distribution and the chain of decays?

Page 14: Decay channel analysis - lise.nscl.msu.edulise.nscl.msu.edu/paper/decay_analysis_fragment.pdf · More intense channel to get 24O is 2O is 2αα++xnxn 48Ca+Ni --> 2424. O. 48. Ca+Ni

It will be nice to measure …. Fragment Energy It will be nice to measure …. Fragment Energy vsvs N(n) [and N(alpha)??] N(n) [and N(alpha)??] On different targets with the beam of different energies On different targets with the beam of different energies

Page 15: Decay channel analysis - lise.nscl.msu.edulise.nscl.msu.edu/paper/decay_analysis_fragment.pdf · More intense channel to get 24O is 2O is 2αα++xnxn 48Ca+Ni --> 2424. O. 48. Ca+Ni

2D 2D ““Cross sectionCross section”” plot plot --> file> file

Page 16: Decay channel analysis - lise.nscl.msu.edulise.nscl.msu.edu/paper/decay_analysis_fragment.pdf · More intense channel to get 24O is 2O is 2αα++xnxn 48Ca+Ni --> 2424. O. 48. Ca+Ni

BreakBreak--up channelup channel

The limiting temperature Tlim as a function of mass number on the β-stability line [De96].

3636S for S for 2424O?O?