B. Decroix scite author profile

The systematics of the even light P o isotopes (N126) are studied in the framework of the Particle-Core Model. The strong perturbation of the systematics in the very light isotopes is interpreted as arising from the interaction between regular and intruder structures. Results of Potential Energy Surface (PES) calculations and predictions of the Pairing Vibration Model support this interpretation. The mixing between the regular and intruder structures is studied within the IBM-2 and in a simple two-state mixing picture. Matrix elements of the interaction and their spin-dependence are extracted. The 'reconstructed systematics' show the coexistence of a spherical structure, which v aries little with the neutron number, with an intruder band, strongly lowered in energy as the neutron numberapproaches midshell. The crossing of the two congurations takes place over a few isotopes; the intruder band becomes the ground-state conguration in 192 Po.

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High Risk of Anal and Rectal Cancer in Patients With Anal and/or Perianal Crohn’s Disease

Carrat

Zeitoun

Fléjou

et al. 2018

Clinical Gastroenterology and Hepatology

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Particle-hole excitations in the interacting boson model (II): The U(5)-O(6) coupling

Coster¹,

Decroix²,

Heyde³

et al. 1997

Nuclear Physics A

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Particle-hole excitations in the interacting boson model (I) General structure and symmetries

Coster¹,

Heyde²,

Decroix³

et al. 1996

Nuclear Physics A

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Particle-hole excitations in the interacting boson model (III): The O(6)-SU(3) coupling

Coster¹,

Decroix²,

Heyde³

et al. 1997

Nuclear Physics A

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B. Decroix

Shape coexistence in the light Po isotopes

High Risk of Anal and Rectal Cancer in Patients With Anal and/or Perianal Crohn’s Disease

Particle-hole excitations in the interacting boson model (II): The U(5)-O(6) coupling

Particle-hole excitations in the interacting boson model (I) General structure and symmetries

Particle-hole excitations in the interacting boson model (III): The O(6)-SU(3) coupling

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