@inproceedings{b5c8e17cf6424cdfba9f26614cffd015,
title = "High-efficiency quantum state engineering",
abstract = "Efficiently creating optical quantum states, both simple (e.g., pure single-photon states) and complex (e.g., polarization-entangled but spectrally unentangled photon pairs), remains an experimental challenge. We report on a novel method that allows for efficiently preparing certain classes of states: by weakly driving repeated downconversion in a cavity, we can pseudo- deterministically add photons to a state, preparing Fock states of definite photon number. We discuss expected performance and experimental limitations, including the difficulty of creating pure photons at a high rate. Additionally, we report on our progress in engineering high-rate spatio-spectrally unentangled downconversion, a key technology for optical quantum information processing, and propose a novel 4-photon experimental scheme to test the intrinsic indistinguishability of the photons from this source.",
keywords = "Downconversion, Entanglement, Number state, Quantum information, Quantum optical, Single photon",
author = "Mccusker, {Kevin T.} and Radhika Rangarajan and Kwiat, {Paul G.}",
year = "2009",
doi = "10.1117/12.826998",
language = "English (US)",
isbn = "9780819477552",
series = "Proceedings of SPIE - The International Society for Optical Engineering",
booktitle = "Quantum Communications and Quantum Imaging VII",
note = "Quantum Communications and Quantum Imaging VII ; Conference date: 04-08-2009 Through 06-08-2009",
}