Modeling and Experimental Verification of the Dynamic Interaction of an AFM-Tip With a Photonic Crystal Microcavity

Modeling and Experimental Verification of the Dynamic Interaction of an AFM-Tip With a Photonic Crystal Microcavity

We present a transmission model for estimating the effect of the atomic-force microscopy tapping tip height on a photonic crystal microcavity (MC). This model uses a fit of the measured tip-height-dependent transmission above a ¿hot spot¿ in the MC. The predicted transmission versus average tapping...

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Veröffentlicht in:IEEE photonics technology letters 2008-01, Vol.20 (1), p.57-59
Hauptverfasser: Hopman, W.C.L., van der Werf, K.O., Hollink, A.J.F., Bogaerts, W., Subramaniam, V., de Ridder, R.M.
Format: Artikel
Sprache:eng
Schlagworte:
Atomic force microscopy
Atomic-force microscopy (AFM)
Dynamics
Holes
integrated optics
Mathematical models
Microcavities
Microscopy
modeling
near-field microscopy
Nonlinear optics
optical microcavities (MCs)
Optical microscopy
Optical sensors
Optical surface waves
optical variables measurement
photonic crystal (PhC)
Photonic crystals
Photonics
Predictive models
Resonance
Scanning electron microscopy
Tapping
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Zusammenfassung:We present a transmission model for estimating the effect of the atomic-force microscopy tapping tip height on a photonic crystal microcavity (MC). This model uses a fit of the measured tip-height-dependent transmission above a ¿hot spot¿ in the MC. The predicted transmission versus average tapping height is in good agreement with the values obtained from tapping mode experiments. Furthermore, we show that for the existing, nonoptimized structure, the transmission coefficient can be tuned between 0.32 and 0.8 by varying the average tapping height from 26 to 265 nm. A transmission larger than that of the undisturbed cavity at resonance was observed at specific tip locations just outside the cavity-terminating holes.
ISSN:1041-1135
1941-0174
DOI:10.1109/LPT.2007.911519