Abstract

Krylov complexity and Nielsen complexity are successful approaches to quantifying quantum evolution complexity that have been actively pursued without much contact between the two lines of research. The two quantities are motivated by quantum chaos and quantum computation, respectively, while the relevant mathematics is as different as matrix diagonalization algorithms and geodesic flows on curved manifolds. We demonstrate that, despite these differences, there is a relation between the two quantities. Namely, the time average of Krylov complexity of state evolution can be expressed as a trace of a certain matrix, which also controls an upper bound on Nielsen complexity with a specific custom-tailored penalty schedule adapted to the Krylov basis.

Full Text
Published version (Free)

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
Complexity of chaos and quantum computation
Bertrand Georgeot
Mathematical Structures in Computer Science | VOL. 17
Bertrand GeorgeotBertrand Georgeot
23 Nov 2007
Emergence of quantum chaos in the quantum computer core and how to manage it
B Georgeot ... D L Shepelyansky
Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics | VOL. 62
B Georgeot, et. al.B Georgeot ... D L Shepelyansky
01 Nov 2000
Quantum chaos and quantum computers
D L Shepelyansky
Physica Scripta | VOL. 2001
D L ShepelyanskyD L Shepelyansky
01 Jan 2001
Quantum dynamics of a two-level system coupled to a bosonic degree of freedom in terms of Wigner phase space distributions
N Klenner ... J Weis
Journal of Physics A: Mathematical and General | VOL. 19
N Klenner, et. al.N Klenner ... J Weis
21 Dec 1986
View more papers

More From: Physical review letters

Paper Title
Journal
Date
Author
Emergent Quantum Phenomena of a Noncentrosymmetric Charge Density Wave in 1T -Transition Metal Dichalcogenides
Cheong-Eung Ahn ... Gil Young Cho
Physical Review Letters | VOL. 132
Cheong-Eung Ahn, et. al.Cheong-Eung Ahn ... Gil Young Cho
28 May 2024
Can Supercooled Phase Transitions Explain the Gravitational Wave Background Observed by Pulsar Timing Arrays?
Peter Athron ... Zhongxiu Xu
Physical Review Letters | VOL. 132
Peter Athron, et. al.Peter Athron ... Zhongxiu Xu
28 May 2024
w1+∞ Algebra with a Cosmological Constant and the Celestial Sphere
Tomasz R Taylor ... Bin Zhu
Physical Review Letters | VOL. 132
Tomasz R Taylor, et. al.Tomasz R Taylor ... Bin Zhu
28 May 2024
Surface-Symmetry-Driven Dzyaloshinskii-Moriya Interaction and Canted Ferrimagnetism in Collinear Magnetoelectric Antiferromagnet Cr2O3
Oleksandr V Pylypovskyi ... Denys Makarov
Physical Review Letters | VOL. 132
Oleksandr V Pylypovskyi, et. al.Oleksandr V Pylypovskyi ... Denys Makarov
28 May 2024
View more papers