Enhanced spectral sensitivity of a chip-scale photonic-crystal slow-light interferometer

Omar S. Magaña-Loaiza; Boshen Gao; Sebastian A. Schulz; Kashif M. Awan; Jeremy Upham; Ksenia Dolgaleva; Robert W. Boyd

doi:10.1364/OL.41.001431

Optics Letters
Vol. 41,
Issue 7,
pp. 1431-1434
(2016)
•https://doi.org/10.1364/OL.41.001431

Enhanced spectral sensitivity of a chip-scale photonic-crystal slow-light interferometer

Omar S. Magaña-Loaiza, Boshen Gao, Sebastian A. Schulz, Kashif M. Awan, Jeremy Upham, Ksenia Dolgaleva, and Robert W. Boyd

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Omar S. Magaña-Loaiza, Boshen Gao, Sebastian A. Schulz, Kashif M. Awan, Jeremy Upham, Ksenia Dolgaleva, and Robert W. Boyd, "Enhanced spectral sensitivity of a chip-scale photonic-crystal slow-light interferometer," Opt. Lett. 41, 1431-1434 (2016)

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- Interferometry
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About this Article
History
- Original Manuscript: January 29, 2016
- Revised Manuscript: February 19, 2016
- Manuscript Accepted: February 23, 2016
- Published: March 21, 2016

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Abstract

We experimentally demonstrate that the spectral sensitivity of a Mach–Zehnder (MZ) interferometer can be enhanced through structural slow light. We observe a 20-fold resolution enhancement by placing a dispersion-engineered, slow-light, photonic-crystal waveguide in one arm of a fiber-based MZ interferometer. The spectral sensitivity of the interferometer increases roughly linearly with the group index, and we have quantified the resolution in terms of the spectral density of interference fringes. These results show promise for the use of slow-light methods for developing novel tools for optical metrology and, specifically, for compact high-resolution spectrometers.

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Optics Letters