English

Efficient optical cat state generation using squeezed few-photon superposition states

Quantum Physics 2026-02-17 v1

Abstract

Optical Schr\"{o}dinger cat states are non-Gaussian states with applications in quantum technologies, such as for building error-correcting states in quantum computing. Yet the efficient generation of high-fidelity optical Schr\"{o}dinger cat states is an outstanding problem in quantum optics. Here, we propose using squeezed superpositions of zero and two photons, θ=cos(θ/2)0+sin(θ/2)2|\theta\rangle = \cos{(\theta/2)}|0\rangle + \sin{(\theta/2)}|2\rangle, as ingredients for protocols to efficiently generate high-fidelity cat states. We present a protocol using linear optics with success probability P50%P\gtrsim 50\% that can generate cat states of size α2=5|\alpha|^2=5 with fidelity F>0.99F>0.99. The protocol relies only on detecting single photons and is remarkably tolerant of loss, with 2%2\% detection loss still achieving F>0.98F>0.98 for cats with α2=5|\alpha|^2=5. We also show that squeezed θ\theta states are ideal candidates for nonlinear photon subtraction using a two-level system with near deterministic success probability and fidelity F>0.98F>0.98 for cat states of size α2=5|\alpha|^2=5. Schemes for generating θ\theta states using quantum emitters are also presented. Our protocols can be implemented with current state-of-the-art quantum optics experiments.

Keywords

Cite

@article{arxiv.2412.14798,
  title  = {Efficient optical cat state generation using squeezed few-photon superposition states},
  author = {Haoyuan Luo and Sahand Mahmoodian},
  journal= {arXiv preprint arXiv:2412.14798},
  year   = {2026}
}
R2 v1 2026-06-28T20:42:09.301Z