We present a fine-structure entanglement classification under stochastic local operation and classical communication (SLOCC) for multiqubit pure states. To this end, we employ specific algebraic-geometry tools that are SLOCC invariants, secant varieties, to show that for n-qubit systems there are ceiling(2^n/n+1) entanglement families. By using another invariant, -multilinear ranks, each family can be further split into a finite number of subfamilies. Not only does this method facilitate the classification of multipartite entanglement but it also turns out to be operationally meaningful as it quantifies entanglement as a resource.
Fine-structure classification of multiqubit entanglement by algebraic geometry / Gharahi, Masoud; Mancini, Stefano; Ottaviani, Giorgio. - In: PHYSICAL REVIEW RESEARCH. - ISSN 2643-1564. - ELETTRONICO. - 2:(2020), pp. 0-0. [10.1103/PhysRevResearch.2.043003]
Fine-structure classification of multiqubit entanglement by algebraic geometry
Mancini, Stefano;Ottaviani, Giorgio
2020
Abstract
We present a fine-structure entanglement classification under stochastic local operation and classical communication (SLOCC) for multiqubit pure states. To this end, we employ specific algebraic-geometry tools that are SLOCC invariants, secant varieties, to show that for n-qubit systems there are ceiling(2^n/n+1) entanglement families. By using another invariant, -multilinear ranks, each family can be further split into a finite number of subfamilies. Not only does this method facilitate the classification of multipartite entanglement but it also turns out to be operationally meaningful as it quantifies entanglement as a resource.
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