Event Details
Speaker Name
Jonas Haferkamp
Speaker Institution
Freie Universität Berlin
Start Date & Time
2021-08-10 10:00 am
End Date & Time
2021-08-10 10:00 am
Semester
Event Details

Quantifying quantum states’ complexity is a key problem in various subfields of science, from quantum computing to black-hole physics. We prove a prominent conjecture by Brown and Susskind about how random quantum circuits’ complexity increases. Consider constructing a unitary from Haar-random two-qubit quantum gates. Implementing the unitary exactly requires a circuit of some minimal number of gates - the unitary’s exact circuit complexity. We prove that this complexity grows linearly in the number of random gates, with unit probability, until saturating after exponentially many random gates. Our proof is surprisingly short, given the established difficulty of lower-bounding the exact circuit complexity. Our strategy combines differential topology and elementary algebraic geometry with an inductive construction of Clifford circuits.  Reference: Haferkamp, Jonas, et al. "Linear growth of quantum circuit complexity." arXiv preprint arXiv:2106.05305 (2021).

This talk is part of the IQC-QuICS Math and Computer Science Seminar.

Virtual Via Zoom: https://umd.zoom.us/j/91765577450?pwd=T1h1OXBmSVRvVVAreGZsK3pHRHpqUT09

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TEMP migration NID
21226