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Title: [Prof. Hyukjoon Kwon, School of Computational Sciences] Shallow Quantum Circuit for Generating Extremely Low-Entangled Approximate State Designs (Published in Physical Review Letters)

Date: 2026-06-11

Random quantum states have a wide range of applications in quantum information theory and quantum computing, but their exact implementation requiries substantial quantum resources. In this work, we show that state t-designs, a class of approximate random quantum states, can be generated with extremely small amounts of entanglement and realized using shallow-depth quantum circuits. This result offers a new efficient approach to generating quantum randomness, with potential applications in shadow tomography and quantum-state certification algorithms.

▶ (a) Randomness from a small quantum system is injected into a higher-dimensional quantum system. (b) The random states generated in this way can be implemented using shallow-depth quantum circuits and exhibit a constant amount of quantum entanglement independent of the number of qubits. (c) In contrast, the quantum entanglement of random states generated by local random gates scales linearly with the number of qubits.

Journal	PHYSICAL REVIEW LETTERS
Publication Date	17 April, 2026
Article	Shallow Quantum Circuit for Generating Extremely Low-Entangled Approximate State Designs
Authors	Lee, Wonjun; Hhan, Minki; Cho, Gil Young; Kwon, Hyukjoon
DOI	https://doi.org/10.48550/arXiv.2507.17871
Link	https://journals.aps.org/prl/abstract/10.1103/p966-lcgs

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