Loss determination in microsphere resonators by phase-shift cavity ring-down measurements | Zendy

Jack A. Barnes | Zendy; B. Carver | Zendy; James M. Fräser | Zendy; G. Gagliardi | Zendy; HansPeter Loock | Zendy; ZhenYu Tian | Zendy; Mark W. B. Wilson | Zendy; Scott S.-H. Yam | Zendy; O. Yastrubshak | Zendy

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Loss determination in microsphere resonators by phase-shift cavity ring-down measurements

Author(s) -

Jack A. Barnes,

B. Carver,

James M. Fräser,

G. Gagliardi,

HansPeter Loock,

ZhenYu Tian,

Mark W. B. Wilson,

Scott S.-H. Yam,

O. Yastrubshak

Publication year - 2008

Publication title -

optics express

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.394

H-Index - 271

ISSN - 1094-4087

DOI - 10.1364/oe.16.013158

Subject(s) - optics , resonator , whispering gallery wave , phase (matter) , optical cavity , light intensity , interference (communication) , waveguide , amplitude , physics , slow light , materials science , laser , photonic crystal , channel (broadcasting) , electrical engineering , quantum mechanics , engineering

The optical loss of whispering gallery modes of resonantly excited microresonator spheres is determined by optical lifetime measurements. The phase-shift cavity ring-down technique is used to extract ring-down times and optical loss from the difference in amplitude modulation phase between the light entering the microresonator and light scattered from the microresonator. In addition, the phase lag of the light exiting the waveguide, which was used to couple light into the resonator, was measured. The intensity and phase measurements were fully described by a model that assumed interference of the cavity modes with the light propagating in the waveguide.

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