What question did this study set out to answer?

The research aims to experimentally extract and quantify nucleon-nucleon spin entanglement in quasi-elastic scattering reactions.

April 1, 2026Open Access

Spin Entanglement for \ ( (p, n) \) Quasi-elastic Scattering

Key Points

The research aims to experimentally extract and quantify nucleon-nucleon spin entanglement in quasi-elastic scattering reactions.
Extraction of spin entanglement using von Neumann entropy and concurrence.
Measurement of spin polarization transfer coefficients from previous data.
Utilization of Bai’s method framework with data from 1996 at RCNP.
High degree of pn entanglement observed in quasi-elastic scattering, with values ranging from 0.7 to 0.99.
Identical entanglement values for H(p,n) and 12C(p,n) reactions.
Novel insights into nuclear correlations and implications for understanding nuclear forces.

Abstract

We present the first experimental extraction of nucleon–nucleon spin entanglement in the quasi-elastic \ ( (p, n) \) reactions. Entanglement was quantified using von Neumann entropy \ (E\) and concurrence \ (C\). The latter was derived from the experimentally measured spin polarization transfer coefficients (PTC, \ (D₉₈\) ). Data obtained in 1996 at RCNP using the NTOF and NPOL facilities were used in Bai’s method framework. The \ (pn\) entanglements for QES induced by the \ (²\) H\ ( (p, n) \) and \ (^12\) C\ ( (p, n) \) reactions showed a high degree of entanglement, with values of \ (0. 7 E 0. 99\), and they had an almost identical value. These findings provide novel experimental insight into nuclear correlations and open up new avenues for investigating nuclear forces and structure through quantum entanglement. Abstract Published by the Jagiellonian University 2026 authors

Spin Entanglement for \ ( (p, n) \) Quasi-elastic Scattering

Key Points

Abstract

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