Dynamical electrical tuning of a silicon microsphere: Used for spectral mapping of the optical resonances

Emre Yüce; Oʇuzhan Gürlü; Graham J. Thursby; Ali Serpengüzel

doi:10.1364/AO.53.006181

Dynamical electrical tuning of a silicon microsphere: Used for spectral mapping of the optical resonances

Emre Yüce, Oʇuzhan Gürlü, Graham J. Thursby, Ali Serpengüzel^*

^*Corresponding author for this work

Department of Physics Engineering

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

2 Citations (Scopus)

Abstract

In this work, electrical square pulses at various duty cycles are applied to a silicon microsphere resonator in order to continuously tune the refractive index of a silicon microsphere and to map the optical resonance in the time domain. A continuous-wave semiconductor diode laser operating in the L-band is used for the excitation of the silicon microsphere optical resonances. The 90° transverse magnetically polarized elastic scattering signal is used to monitor the silicon microsphere resonances. We show that at a constant input laser wavelength, up to five high-quality-factor optical resonances can be scanned by dynamical electrical tuning of the silicon microsphere cavity.

Original language	English
Pages (from-to)	6181-6184
Number of pages	4
Journal	Applied Optics
Volume	53
Issue number	27
DOIs	https://doi.org/10.1364/AO.53.006181
Publication status	Published - 20 Sept 2014

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© 2014 Optical Society of America.

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abstract = "In this work, electrical square pulses at various duty cycles are applied to a silicon microsphere resonator in order to continuously tune the refractive index of a silicon microsphere and to map the optical resonance in the time domain. A continuous-wave semiconductor diode laser operating in the L-band is used for the excitation of the silicon microsphere optical resonances. The 90° transverse magnetically polarized elastic scattering signal is used to monitor the silicon microsphere resonances. We show that at a constant input laser wavelength, up to five high-quality-factor optical resonances can be scanned by dynamical electrical tuning of the silicon microsphere cavity.",

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AU - Yüce, Emre

AU - Gürlü, Oʇuzhan

AU - Thursby, Graham J.

AU - Serpengüzel, Ali

PY - 2014/9/20

Y1 - 2014/9/20

N2 - In this work, electrical square pulses at various duty cycles are applied to a silicon microsphere resonator in order to continuously tune the refractive index of a silicon microsphere and to map the optical resonance in the time domain. A continuous-wave semiconductor diode laser operating in the L-band is used for the excitation of the silicon microsphere optical resonances. The 90° transverse magnetically polarized elastic scattering signal is used to monitor the silicon microsphere resonances. We show that at a constant input laser wavelength, up to five high-quality-factor optical resonances can be scanned by dynamical electrical tuning of the silicon microsphere cavity.

AB - In this work, electrical square pulses at various duty cycles are applied to a silicon microsphere resonator in order to continuously tune the refractive index of a silicon microsphere and to map the optical resonance in the time domain. A continuous-wave semiconductor diode laser operating in the L-band is used for the excitation of the silicon microsphere optical resonances. The 90° transverse magnetically polarized elastic scattering signal is used to monitor the silicon microsphere resonances. We show that at a constant input laser wavelength, up to five high-quality-factor optical resonances can be scanned by dynamical electrical tuning of the silicon microsphere cavity.

UR - https://www.scopus.com/pages/publications/84942368481

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EP - 6184

JO - Applied Optics

JF - Applied Optics

IS - 27

ER -

Dynamical electrical tuning of a silicon microsphere: Used for spectral mapping of the optical resonances

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