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arxiv: 2602.09495 · v1 · pith:Z5YK77SBnew · submitted 2026-02-10 · 🪐 quant-ph

Rigorous no-go theorems for heralded linear-optical state generation tasks

classification 🪐 quant-ph
keywords statequantumstateslinearpreparationchallengegenerationinput
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A major challenge in photonic quantum technologies is developing strategies to prepare suitable discrete-variable quantum states using simple input states, linear optics, and auxiliary photon measurements to identify successful outcomes. Fundamentally, this challenge arises from the lack of strong non-linearities on the single-photon level, meaning that photonic state preparation based on linear optics cannot benefit from the deterministic gate-based approach available to other physical platforms. Instead, the preparation of quantum states can be probabilistically implemented using single photons, linear-optical networks, and photon detection. However, determining whether an input state can be transformed into a target state using a specific measurement pattern - a problem that can be mapped to deciding the feasibility of a system of polynomial equations - is a complex problem in general. To solve it, we apply the Nullstellensatz Linear Algebra algorithm from algebraic geometry to quantum state generation; this can provide definitive no-go results by proving infeasibility when the state preparation task in question has no solution. We demonstrate this capability to validate and establish lower bounds on the physical resource requirements for the realization of several ubiquitous optical states and gates.

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Cited by 2 Pith papers

Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

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    Photon catalysis protocols are shown to be provably optimal in some cases for approximating squeezed cat states, with identified parameter regimes achieving high fidelity using minimal non-Gaussian resources while ben...

  2. Local controllability of heralded quantum linear optics

    quant-ph 2026-06 unverdicted novelty 5.0

    Jacobian rank analysis quantifies how heralding enlarges the locally accessible state space in photonic linear optics and identifies resources for full local controllability.