English

Transversal AND in Quantum Codes

Quantum Physics 2026-03-19 v2 Emerging Technologies

Abstract

The AND gate is not reversible\unicodex2014\unicode{x2014}on qubits. However, it is reversible on qutrits, making it a building block for efficient simulation of qubit computation using qutrits. We first observe that there are multiple two-qutrit Clifford+T unitaries that realize the AND gate with T-count 3, and its generalizations to nn qubits with T-count 3n33n-3. Our main result is the construction of a novel qutrit [ ⁣[6,2,2] ⁣]\mathopen{[\![} 6,2,2 \mathclose{]\!]} quantum error-correcting code with a transversal implementation of the AND gate. The key insight in our approach is that a symmetric T-depth one circuit decomposition\unicodex2014\unicode{x2014}composed of a CX circuit, T and T dagger gates, followed by the CX circuit in reverse\unicodex2014\unicode{x2014}of a given unitary can be interpreted as a CSS code. We can increase the code distance by augmenting the code circuit with additional stabilizers while preserving the logical gate. This results in a code with a "built-in" transversal implementation of the original unitary, which can be further concatenated to attain a [ ⁣[48,2,4] ⁣]\mathopen{[\![} 48,2,4 \mathclose{]\!]} code with the same transversal logical gate. Furthermore, we present several protocols for mixed qubit-qutrit codes which we call Qubit Subspace Codes, and for magic state distillation and injection.

Keywords

Cite

@article{arxiv.2603.04548,
  title  = {Transversal AND in Quantum Codes},
  author = {Christine Li and Lia Yeh},
  journal= {arXiv preprint arXiv:2603.04548},
  year   = {2026}
}

Comments

40 pages

R2 v1 2026-07-01T11:03:52.811Z