Transcript offr-ee230x
Damla Ozcelik
12/02/2010
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Overview
What is Ring Resonator?
Principles
Important Parameters
Fabrication Challenges
Different Types, Optofluidic RRs (OFRR)
OFRR Applications
Sensors
Particle Transportation
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Whispering Gallery Modes (WGM)
Wave propagation is confined to the inside of a
cylindrical/spherical surface and guided by it by repeated
reflection
Spheres
Disks
Rings
Domes
John E. Heebner et al., Optical microresonators: theory, fabrication, and
applications (Springer, 2008).
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Disks vs Rings
Main drawback of
microresonators surface
roughness due to etching
processes low Q factors
Disks:
Less scattering loss (1 edge)
Multi-moded
Rings:
More scattering loss (2 edges)
Single-moded
John E. Heebner et al., Optical microresonators: theory, fabrication, and
applications (Springer, 2008).
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RR Principles
Wavelength Dependent
Resonant Frequency
Intensity Build-Up
Resonators delay incoming signals via the
temporary storage of optical energy within
the resonator.
Constructive interference circulating
optical intensity is built up to a higher value
than that initially injected.
Coherent source
John E. Heebner et al., Optical microresonators: theory, fabrication, and
applications (Springer, 2008).
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Important Parameters
Quality factor: Sharpness of the resonance. Ratio of the operation
wavelength and the resonant line width. Stored energy divided by the power lost
per optical cycle. (typically: 104 – 109)
Leff : Effective light-matter interaction length.
Free Spectral Range (FSR): Distance between resonance peaks.
Extinction Ratio (ER): The ratio of the intensity on resonance to the
intensity off resonance.
DG Rabus, Integrated Ring Resonators: The Compendium (Springer Series in Optical
Sciences) (Springer Series in Optical Sciences) (Springer, 2007)
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Fabrication Challenges
The construction of microrings smaller diameter is a challenging effort.
It requires;
high index contrast
anisotropically etched pedestal waveguide designs
ultrasmooth sidewalls
The lateral-coupling approach demands strict patterning tolerances typically
requiring e-beam lithography followed by advanced etching techniques.
John E. Heebner et al., Optical microresonators: theory, fabrication, and
applications (Springer, 2008).
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Various Types of RRs
Race Track
Multiple RR
Add-Drop
All-Pass
DG Rabus, Integrated Ring Resonators: The Compendium (Springer Series in Optical
Sciences) (Springer Series in Optical Sciences) (Springer, 2007)
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All Pass
Add-drop
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Optofluidic RRs (OFRR)
Bio/Chemical Sensing
Higher sensitivity
Planar integration
Basic Applications:
Sensors
Particle Transportation
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OFRR Sensors
Applications
medical diagnosis
environmental monitoring
food quality control
Ian M. White, Hesam Oveys, and Xudong Fan, “Liquid-core optical ring-resonator
sensors,” Optics Letters 31, no. 9 (May 1, 2006): 1319-1321.
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OFRR Sensors
LCORRs
Analyte binds to
the resonator
surface
Longer
Leff
Δn Change
WGM
Evanescent field
detection
Better
Better
Light-Matter
Interaction
Sensing
Performance
•Small sample volume is needed
Ian M. White, Hesam Oveys, and Xudong Fan, “Liquid-core optical ring-resonator
sensors,” Optics Letters 31, no. 9 (May 1, 2006): 1319-1321.
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Liquid Core OFRR Sensor
Liquid-core waveguide, MMI
coupler
Microfluidic part
Optical part
(deliver the
sample)
(ring resonator)
Integrated
in
liquid-core
waveguide
0.11 nl liquid
Sensitivity: Δλ /Δn =260nm/RIU
Yujian Huang et al., “Integrated silicon optofluidic ring resonator,” Applied
Physics Letters 97, no. 13 (2010): 131110.
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OFRR switch for optical particle transport
Particles trapped in the evanescent field of
a solid-core waveguide
actively control the
particles’ direction
Change λ
λ On resonance
high optical intensities
gradient force
Switching fraction: 80%
ParticlesRing
Particle velocity: 250% in the ring
Allen Yang and David Erickson, “Optofluidic ring resonator switch for optical particle
transport,” Lab Chip 10, no. 6 (2010): 769-774.
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OFRR switch for optical particle transport
λr=1552.225 nm (on resonance)
λn= 1553.225 nm (off resonance)
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Thank you
Any Questions?
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