Related papers: Universal composite phase gates with tunable target phase

Universal composite phase gates with tunable target phase

URL: http://arxiv.org/abs/2601.13923v1
Date: Tue, 20 Jan 2026 12:53:05 GMT
Title: Universal composite phase gates with tunable target phase
Authors: Peter Chernev, Mouhamad Al-Mahmoud, Andon A. Rangelov,
Abstract summary: We present a systematic method for constructing universal composite phase gates with a continuously tunable target phase.<n> Numerical simulations in a standard two-level model confirm high-order error suppression and demonstrate broad, flat high-fidelity plateaus over wide ranges of simultaneous pulse-area and detuning errors.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: We present a systematic method for constructing universal composite phase gates with a continuously tunable target phase. Using a general Cayley--Klein parametrization of the single-pulse propagator, we design gates from an even number of nominal $π$ pulses and derive analytic phase families by canceling, order by order in a small deviation parameter, the leading contributions to the undesired off-diagonal element of the composite propagator, independently of the dynamical phase. The resulting sequences provide intrinsic robustness against generic control imperfections and parameter fluctuations and remain valid for arbitrary pulse shapes. Numerical simulations in a standard two-level model confirm high-order error suppression and demonstrate broad, flat high-fidelity plateaus over wide ranges of simultaneous pulse-area and detuning errors, highlighting the efficiency of the proposed universal composite phase gates for resilient phase control in quantum information processing.

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