6533b857fe1ef96bd12b3a55

RESEARCH PRODUCT

Novel Narrow-Band Spectral Interference Filter with Very High Transmittance

Stephan QuintScott M. JoblingA. Z. SmithJan BogdanskiPaul G. KwiatA. DananKevin MccuskerJ. Smith

subject

Quantum opticsInterference filterPhysicsbusiness.industryLow-pass filterNonlinear opticsRaised-cosine filterAtomic and Molecular Physics and OpticsFilter designOpticsTransmission (telecommunications)Spontaneous parametric down-conversionOptoelectronicsPrototype filterQuantum informationHigh-pass filterbusinessQuantum information sciencePassbandm-derived filterRoot-raised-cosine filter

description

We report a novel scheme to improve the effective transmission of a standard interference filter, and demonstrate over 97% passband transmission. Such high efficiency is critical for quantum information applications, e.g. high-efficiency single-photon generation utilizing parametric down-conversion. The scheme can also be modified to function with a tilted filter, thereby allowing tuning of the passband frequency. In addition, the tilted configuration creates an infinite number of consecutive reflections from and transmissions through the filter, further improving the net filter transmission. Because spectral interference filters are a key element in optical quantum information experiments (both on the source and detection side, e.g. to exclude background photons as well as to determine the spectra of the desired photons), our scheme of enhanced interference filter transmission should lead to significant performance improvements in such experiments.

yearjournalcountryeditionlanguage
2011-02-10Conference on Lasers and Electro-Optics 2010
https://doi.org/10.1364/qels.2010.qthk5