Journal
APPLIED PHYSICS LETTERS
Volume 85, Issue 25, Pages 6113-6115Publisher
AMER INST PHYSICS
DOI: 10.1063/1.1833556
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Optical microcavities confine light spatially and temporally and find application in a wide range of fundamental and applied studies. In many areas, the microcavity figure of merit is not only determined by photon lifetime (or the equivalent quality-factor, Q), but also by simultaneous achievement of small mode volume (V). Here we demonstrate ultra-high Q-factor small mode volume toroid microcavities on-a-chip, which exhibit a Q/V factor of more than 10(6) (lambda/n)(-3). These values are the highest reported to date for any chip-based microcavity. A corresponding Purcell factor in excess of 200 000 and a cavity finesse of >2.8x10(6) is achieved, demonstrating that toroid microcavities are promising candidates for studies of the Purcell effect, cavity QED or biochemical sensing. (C) 2004 American Institute of Physics.
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