Machine learning the effects of many quantum measurements

• URL: http://arxiv.org/abs/2509.08890v1
• Date: Wed, 10 Sep 2025 18:00:05 GMT
• Title: Machine learning the effects of many quantum measurements
• Authors: Wanda Hou, Samuel J. Garratt, Norhan M. Eassa, Eliott Rosenberg, Pedram Roushan, Yi-Zhuang You, Ehud Altman,
• Abstract summary: We create entangled states of one- and two-dimensional arrays of qubits in a superconducting quantum processor.<n>We aim to characterize the long-range entanglement induced between distant pairs of qubits when we measure all of the others.
• Score: 0.5973423278489198
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: Measurements are essential for the processing and protection of information in quantum computers. They can also induce long-range entanglement between unmeasured qubits. However, when post-measurement states depend on many non-deterministic measurement outcomes, there is a barrier to observing and using the entanglement induced by prior measurements. Here we demonstrate a new approach for detecting such measurement-induced entanglement. We create short-range entangled states of one- and two-dimensional arrays of qubits in a superconducting quantum processor, and aim to characterize the long-range entanglement induced between distant pairs of qubits when we measure all of the others. To do this we use unsupervised training of neural networks on observations to create computational models for post-measurement states and, by correlating these models with experimental data, we reveal measurement-induced entanglement. Our results additionally demonstrate a transition in the ability of a classical agent to accurately model the experimental data; this is closely related to a measurement-induced phase transition. We anticipate that our work can act as a basis for future experiments on quantum error correction and more general problems in quantum control.

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