Related papers: Geometry of Quantum Logic Gates

Geometry of Quantum Logic Gates

URL: http://arxiv.org/abs/2602.15080v1
Date: Mon, 16 Feb 2026 09:21:53 GMT
Title: Geometry of Quantum Logic Gates
Authors: M. W. AlMasri,
Abstract summary: We investigate the geometry of quantum logic gates within the holomorphic representation of quantum mechanics.<n>We derive explicit closed-form differential operator representations for a universal set of quantum gates.
Score: 0.0
License: http://creativecommons.org/licenses/by-sa/4.0/
Abstract: In this work, we investigate the geometry of quantum logic gates within the holomorphic representation of quantum mechanics. We begin by embedding the physical qubit subspace into the space of holomorphic functions that are homogeneous of degree one in each Schwinger boson pair $(z_{a_{j}}, z_{b_{j}})$. Within this framework, we derive explicit closed-form differential operator representations for a universal set of quantum gates--including the Pauli operators, Hadamard, CNOT, CZ, and SWAP--and demonstrate that they preserve the physical subspace exactly. Restricting to unit-magnitude variables ($|z| = 1$) reveals a toroidal space $\mathbb{T}^{2N}$, on which quantum gates act as canonical transformations: Pauli operators generate Hamiltonian flows, the Hadamard gate induces a nonlinear automorphism, and entangling gates produce correlated diffeomorphisms that couple distinct toroidal factors. Beyond the torus, the full Segal--Bargmann space carries a natural Kaehler geometry that governs amplitude dynamics. Entanglement is geometrically characterized via the Segre embedding into complex projective space, while topological protection arises from the $U(1)^{N}$ fiber bundle structure associated with the Jordan--Schwinger constraint.

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