Cavity ring-up spectroscopy for dissipative and dispersive sensing in a whispering gallery mode resonator

Yong Yang; Ramgopal Madugani; Sho Kasumie; Jonathan M. Ward; Síle Nic Chormaic

doi:10.1007/s00340-016-6565-y

Cavity ring-up spectroscopy for dissipative and dispersive sensing in a whispering gallery mode resonator

Yong Yang
, Ramgopal Madugani
, Sho Kasumie
, Jonathan M. Ward
, Síle Nic Chormaic

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

Abstract

In whispering gallery mode resonator sensing applications, the conventional way to detect a change in the parameter to be measured is by observing the steady-state transmission spectrum through the coupling waveguide. Alternatively, sensing based on cavity ring-up spectroscopy, i.e. CRUS, can be achieved transiently. In this work, we investigate CRUS using coupled mode equations and find analytical solutions with a large spectral broadening approximation of the input pulse. The relationships between the frequency detuning, coupling gap and ring-up peak height are determined and experimentally verified using an ultrahigh Q-factor silica microsphere. This work shows that distinctive dispersive and dissipative transient sensing can be realised by simply measuring the peak height of the CRUS signal, which may improve the data collection rate.

Original language	English
Article number	291
Journal	Applied Physics B: Lasers and Optics
Volume	122
Issue number	12
DOIs	https://doi.org/10.1007/s00340-016-6565-y
Publication status	Published - 1 Dec 2016
Externally published	Yes

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title = "Cavity ring-up spectroscopy for dissipative and dispersive sensing in a whispering gallery mode resonator",

abstract = "In whispering gallery mode resonator sensing applications, the conventional way to detect a change in the parameter to be measured is by observing the steady-state transmission spectrum through the coupling waveguide. Alternatively, sensing based on cavity ring-up spectroscopy, i.e. CRUS, can be achieved transiently. In this work, we investigate CRUS using coupled mode equations and find analytical solutions with a large spectral broadening approximation of the input pulse. The relationships between the frequency detuning, coupling gap and ring-up peak height are determined and experimentally verified using an ultrahigh Q-factor silica microsphere. This work shows that distinctive dispersive and dissipative transient sensing can be realised by simply measuring the peak height of the CRUS signal, which may improve the data collection rate.",

author = "Yong Yang and Ramgopal Madugani and Sho Kasumie and Ward, \{Jonathan M.\} and \{Nic Chormaic\}, S{\'i}le",

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AU - Yang, Yong

AU - Madugani, Ramgopal

AU - Kasumie, Sho

AU - Ward, Jonathan M.

AU - Nic Chormaic, Síle

PY - 2016/12/1

Y1 - 2016/12/1

N2 - In whispering gallery mode resonator sensing applications, the conventional way to detect a change in the parameter to be measured is by observing the steady-state transmission spectrum through the coupling waveguide. Alternatively, sensing based on cavity ring-up spectroscopy, i.e. CRUS, can be achieved transiently. In this work, we investigate CRUS using coupled mode equations and find analytical solutions with a large spectral broadening approximation of the input pulse. The relationships between the frequency detuning, coupling gap and ring-up peak height are determined and experimentally verified using an ultrahigh Q-factor silica microsphere. This work shows that distinctive dispersive and dissipative transient sensing can be realised by simply measuring the peak height of the CRUS signal, which may improve the data collection rate.

AB - In whispering gallery mode resonator sensing applications, the conventional way to detect a change in the parameter to be measured is by observing the steady-state transmission spectrum through the coupling waveguide. Alternatively, sensing based on cavity ring-up spectroscopy, i.e. CRUS, can be achieved transiently. In this work, we investigate CRUS using coupled mode equations and find analytical solutions with a large spectral broadening approximation of the input pulse. The relationships between the frequency detuning, coupling gap and ring-up peak height are determined and experimentally verified using an ultrahigh Q-factor silica microsphere. This work shows that distinctive dispersive and dissipative transient sensing can be realised by simply measuring the peak height of the CRUS signal, which may improve the data collection rate.

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Cavity ring-up spectroscopy for dissipative and dispersive sensing in a whispering gallery mode resonator

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