Runyao Duan
Published 2020-03-06Version 1
In 2004 Ambainis and Regev formulated a certain form of quantum adiabatic theorem and provided an elementary proof which is especially accessible to computer scientists. Their result is achieved by discretizing the total adiabatic evolution into a sequence of unitary transformations acting on the quantum system. Here we continue this line of study by providing another elementary and shorter proof with improved bounds. Our key finding is a succinct integral representation of the difference between the target and the actual states, which yields an accurate estimation of the approximation error. Our proof can be regarded as a "continuous" version of the work by Ambainis and Regev. As applications, we show how to adiabatically prepare an arbitrary qubit state from an initial state.
Comments: 11 pages, no figures, preliminary version, comments are welcome
Validity of Quantum Adiabatic Theorem
Quantum adiabatic theorem for unbounded Hamiltonians, with applications to superconducting circuits
Quantum adiabatic theorem in light of the Marzlin-Sanders inconsistency
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