Plasmonic Waveguide Coupled Ring Cavity for a Non-Resonant Type Refractive Index Sensor

Sensitive refractive index sensors with small footprints have been studied to allow the integration of a large number of sensors into a tiny chip for bio/chemical applications. In particular, resonant-type index sensors based on various micro/nanocavities, which use a resonant wavelength dependence on the refractive index of the analyte, have been developed. However, the spectral linewidth of the resonance, which becomes the resolution limit, is considerably large in plasmonic cavities due to the large absorption loss of metals. Therefore, there is demand for a new type of plasmonic refractive index sensor that is not limited by the linewidth of the cavity. We propose a new type of plasmonic index sensors consisting of a channel waveguide and a ring cavity. Two emissions from the ring cavity in both directions of the waveguide couple with a reflection phase difference depending on the length of a closed right arm with a reflecting boundary. Therefore, the output power dramatically and sensitively changes as a function of the refractive index of the analyte filling the waveguide.

[1]  Soon-Hong Kwon,et al.  A Metal-Insulator-Metal Deep Subwavelength Cavity Based on Cutoff Frequency Modulation , 2017 .

[2]  Xudong Fan,et al.  On the performance quantification of resonant refractive index sensors. , 2008, Optics express.

[3]  Soon-Hong Kwon,et al.  Deep Subwavelength-Scale Metal–Insulator–Metal Plasmonic Disk Cavities for Refractive Index Sensors , 2013, IEEE Photonics Journal.

[4]  I. Abdulhalim,et al.  Figure-of-merit enhancement of surface plasmon resonance sensors in the spectral interrogation. , 2012, Optics letters.

[5]  M. Lipson,et al.  On-chip gas detection in silicon optical microcavities , 2008, 2008 Conference on Lasers and Electro-Optics and 2008 Conference on Quantum Electronics and Laser Science.

[6]  M. Hentschel,et al.  Infrared perfect absorber and its application as plasmonic sensor. , 2010, Nano letters.

[7]  Soon-Hong Kwon,et al.  Optimization of photonic crystal cavity for chemical sensing. , 2008, Optics express.

[8]  Andrea M Armani,et al.  Heavy water detection using ultra-high-Q microcavities. , 2006, Optics letters.

[9]  Soon-Hong Kwon,et al.  Full three-dimensional subwavelength high-Q surface-plasmon-polariton cavity. , 2009, Nano letters.

[10]  Soon-Hong Kwon,et al.  Room-temperature high-Q channel-waveguide surface plasmon nanocavity. , 2011, Optics express.

[11]  Qiaoqiang Gan,et al.  Plasmonic Mach-Zehnder interferometer for ultrasensitive on-chip biosensing. , 2011, ACS nano.

[12]  Filbert J. Bartoli,et al.  A metal-insulator-metal plasmonic Mach-Zehnder interferometer array for multiplexed sensing , 2013 .

[13]  R. W. Christy,et al.  Optical Constants of the Noble Metals , 1972 .

[14]  Jeffrey N. Anker,et al.  Biosensing with plasmonic nanosensors. , 2008, Nature materials.

[15]  M. Kamp,et al.  Photonic crystal cavity based gas sensor , 2008 .

[16]  Harald Giessen,et al.  Cavity-enhanced localized plasmon resonance sensing , 2010 .

[17]  Soon-Hong Kwon,et al.  Ultrasmall subwavelength nanorod plasmonic cavity. , 2011, Optics letters.

[18]  A. Polman,et al.  Ultrasmall mode volume plasmonic nanodisk resonators. , 2010, Nano letters (Print).

[19]  Oleksiy Krupin,et al.  Mach-Zehnder refractometric sensor using long-range surface plasmon waveguides , 2013 .

[20]  Romuald Houdré,et al.  Refractive index sensing with an air-slot photonic crystal nanocavity. , 2010, Optics letters.

[21]  Mikael Käll,et al.  A simple model for the resonance shift of localized plasmons due to dielectric particle adhesion. , 2012, Optics express.

[22]  S. Maier,et al.  Hybrid nanoparticle–microcavity-based plasmonic nanosensors with improved detection resolution and extended remote-sensing ability , 2012, Nature Communications.

[23]  Philippe Regreny,et al.  Subwavelength plasmonic lasing from a semiconductor nanodisk with silver nanopan cavity. , 2010, Nano letters.

[24]  Xiang Zhang,et al.  Plasmonic Fabry-Pérot nanocavity. , 2009, Nano letters.

[25]  L. Lechuga,et al.  An integrated optical interferometric nanodevice based on silicon technology for biosensor applications , 2003 .

[26]  Qiaoqiang Gan,et al.  Vertical plasmonic mach-zehnder interferometer for sensitive optical sensing , 2009, 2010 IEEE Photinic Society's 23rd Annual Meeting.

[27]  R. Baets,et al.  Silicon-on-Insulator microring resonator for sensitive and label-free biosensing. , 2007, Optics express.

[28]  Qiaoqiang Gan,et al.  Plasmonic interferometers for label-free multiplexed sensing. , 2013, Optics express.

[29]  Soon-Hong Kwon Ultrasmall Plasmonic Cavity for Chemical Sensing , 2013, Plasmonics.