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2N and 3N Tensor Force in the $N=34$ Shell Evolution: An Ab Initio Perspective

nucl-th · 2026-05-16 · unverdicted · novelty 6.0

Ab initio VS-IMSRG calculations attribute the disappearance of the N=34 shell gap from 54Ca to 62Ni mainly to the NN tensor force (83%) with a 17% contribution from the 3N tensor force.

One- and two-nucleon transfer in $^{\mathbf{116}}$Sn+$^{\mathbf{60}}$Ni: A coupled reaction channel analysis

nucl-th · 2026-05-15 · unverdicted · novelty 4.0

Microscopic CRC analysis of 116Sn+60Ni reproduces quasielastic and 1n transfer data well, with the extreme cluster mechanism best describing two-nucleon transfer.

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2N and 3N Tensor Force in the $N=34$ Shell Evolution: An Ab Initio Perspective nucl-th · 2026-05-16 · unverdicted · none · ref 87
Ab initio VS-IMSRG calculations attribute the disappearance of the N=34 shell gap from 54Ca to 62Ni mainly to the NN tensor force (83%) with a 17% contribution from the 3N tensor force.
One- and two-nucleon transfer in $^{\mathbf{116}}$Sn+$^{\mathbf{60}}$Ni: A coupled reaction channel analysis nucl-th · 2026-05-15 · unverdicted · none · ref 45
Microscopic CRC analysis of 116Sn+60Ni reproduces quasielastic and 1n transfer data well, with the extreme cluster mechanism best describing two-nucleon transfer.

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