A quantum chaotic clock and damping of the coherent nuclear rotation in the 28 Si + 64 Ni dissipative collision
نویسنده
چکیده
We employ the statistical reactions with memory approach to study oscillating excitation functions in the Si(Elab = 120 − 126.75 MeV)+64Ni strongly dissipative reaction and the time evolution of the collision process. The nonself-averaging of the oscillations in the excitation functions is interpreted as indication of quantum chaos and damping of the coherent nuclear rotation in dissipative heavy-ion collisions. PACS: 24.60.Ky; 25.70.Lm
منابع مشابه
S-matrix spin and parity decoherence and damping of coherent nuclear rotation: quantum chaos in dissipative heavy-ion collisions?
We extend the statistical reaction with memory approach to study off-diagonal spin and parity S-matrix energy autocorrelation in dissipative heavy-ion collisions. It is suggested that S-matrix spin and parity decoherence results in (i) damping of the coherent nuclear rotation and (ii) is a manifestation of quantum chaos in dissipative heavy-ion collisions.
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