Coupling of ultrathin tapered fibers with high-Q microsphere resonators at cryogenic temperatures and observation of phase-shift transition from undercoupling to overcoupling

Masazumi Fujiwara; Tetsuya Noda; Akira Tanaka; Kiyota Toubaru; Hong Quan Zhao; Shigeki Takeuchi

doi:10.1364/OE.20.019545

Coupling of ultrathin tapered fibers with high-Q microsphere resonators at cryogenic temperatures and observation of phase-shift transition from undercoupling to overcoupling

Masazumi Fujiwara, Tetsuya Noda, Akira Tanaka, Kiyota Toubaru, Hong Quan Zhao, Shigeki Takeuchi

Research output: Contribution to journal › Article › peer-review

13 Citations (Scopus)

Abstract

We cooled ultrathin tapered fibers to cryogenic temperatures and controllably coupled them with high-Q microsphere resonators at a wavelength close to the optical transition of diamond nitrogen vacancy centers. The 310-nm-diameter tapered fibers were stably nanopositioned close to the microspheres with a positioning stability of approximately 10 nm over a temperature range of 7-28 K. A cavity-induced phase shift was observed in this temperature rangedemonstrating a discrete transition from undercoupling to overcoupling.

Original language	English
Pages (from-to)	19545-19553
Number of pages	9
Journal	Optics Express
Volume	20
Issue number	17
DOIs	https://doi.org/10.1364/OE.20.019545
Publication status	Published - Aug 13 2012
Externally published	Yes

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics

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abstract = "We cooled ultrathin tapered fibers to cryogenic temperatures and controllably coupled them with high-Q microsphere resonators at a wavelength close to the optical transition of diamond nitrogen vacancy centers. The 310-nm-diameter tapered fibers were stably nanopositioned close to the microspheres with a positioning stability of approximately 10 nm over a temperature range of 7-28 K. A cavity-induced phase shift was observed in this temperature rangedemonstrating a discrete transition from undercoupling to overcoupling.",

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AU - Fujiwara, Masazumi

AU - Noda, Tetsuya

AU - Tanaka, Akira

AU - Toubaru, Kiyota

AU - Zhao, Hong Quan

AU - Takeuchi, Shigeki

PY - 2012/8/13

Y1 - 2012/8/13

N2 - We cooled ultrathin tapered fibers to cryogenic temperatures and controllably coupled them with high-Q microsphere resonators at a wavelength close to the optical transition of diamond nitrogen vacancy centers. The 310-nm-diameter tapered fibers were stably nanopositioned close to the microspheres with a positioning stability of approximately 10 nm over a temperature range of 7-28 K. A cavity-induced phase shift was observed in this temperature rangedemonstrating a discrete transition from undercoupling to overcoupling.

AB - We cooled ultrathin tapered fibers to cryogenic temperatures and controllably coupled them with high-Q microsphere resonators at a wavelength close to the optical transition of diamond nitrogen vacancy centers. The 310-nm-diameter tapered fibers were stably nanopositioned close to the microspheres with a positioning stability of approximately 10 nm over a temperature range of 7-28 K. A cavity-induced phase shift was observed in this temperature rangedemonstrating a discrete transition from undercoupling to overcoupling.

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Coupling of ultrathin tapered fibers with high-Q microsphere resonators at cryogenic temperatures and observation of phase-shift transition from undercoupling to overcoupling

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