Reviews development of statistical shell model using q-normal forms generated by embedded random matrix ensembles for nuclear level densities and strengths.
Double-scaled bosonic and fermionic embedded ensembles, complex SYK, and the dual Hilbert space
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abstract
We derive the density of states and $2$- and $4$-point functions of embedded ensembles for both fermions and bosons in the double-scaled limit. It is shown the models are equivalent to the double-scaled Sachdev-Ye-Kitaev model, expanding the double-scaled universality class to include both fermionic and bosonic systems. The models can be solved by introducing the Wick product of non-commuting Gaussian random variables. We show that deriving the Wick product is sufficient for computing the density of states, and properties of the Wick product can be used to compute $n$-point functions directly in the energy basis. In this context, the Wick product is equivalent to normal ordering of $q$-oscillators, which leads to the duality between moments of double-scaled models and expectation values in the chord Hilbert space. By considering operator probes as a second set of oscillators, we extend the duality to compute $n$-point functions. Embedded ensembles are equivalent to complex SYK at fixed charge, and we show working directly with embedded ensembles streamlines the derivations.
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nucl-th 1years
2026 1verdicts
UNVERDICTED 1representative citing papers
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Embedded Random Matrix Ensembles to Statistical Shell Model: Operation of $q$-normal forms
Reviews development of statistical shell model using q-normal forms generated by embedded random matrix ensembles for nuclear level densities and strengths.