# Towers of positive parity excited baryons and their mixing in the large   $N_c$ limit

**Authors:** Cintia Willemyns, Carlos Schat

arXiv: 1703.04098 · 2017-05-24

## TL;DR

This paper analyzes the structure and mixing of positive parity excited baryons in the large N_c limit, revealing a simplified pattern of state mixing and degeneracy into six towers labeled by K, with implications for quark model state interactions.

## Contribution

It demonstrates that in the large N_c limit, excited baryon states organize into six degenerate towers and mixing is simplified to only involve states with the same K label, parameterized by two constants.

## Key findings

- States form six degenerate towers labeled by K.
- Mixing occurs only among states with the same K.
- Configuration mixing can be described by two parameters.

## Abstract

We consider configuration mixing for the nonstrange positive parity excited baryons in the $[\mathbf{56'},0^+],[\mathbf{56},2^+], [\mathbf{70},0^+] $ and $[\mathbf{70},2^+]$ quark model $SU(6) \times O(3)$ multiplets contained in the $N=2$ band. Starting from the effective mass operator for these states we show by an explicit calculation that in the large $N_c$ limit they fall into six towers of degenerate states labeled by $K=0,1,1',2,2',3$. We find that the mixing of the quark model states is much simpler than what is naively expected. To leading order in $N_c$ only states carrying the same $K$ label can mix, which implies that for the spin-flavor states we started with configuration mixing can be parameterized by just two constants, $\mu_{K=1}$ and $\mu_{K=2}$.

## Full text

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## References

45 references — full list in the complete paper: https://tomesphere.com/paper/1703.04098/full.md

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Source: https://tomesphere.com/paper/1703.04098