Microphotonics Center
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Metal-particle-induced, highly localized site-specific etching of Si and formation of single-crystalline Si nanowires in aqueous fluoride solution.
Chemistry (Weinheim an der Bergstrasse, Germany) Oct, 2006 | Pubmed ID: 16871502
Demonstration of chalcogenide glass racetrack microresonators.
Optics letters Apr, 2008 | Pubmed ID: 18414524
Planar waveguide-coupled, high-index-contrast, high-Q resonators in chalcogenide glass for sensing.
Optics letters Nov, 2008 | Pubmed ID: 18978900
Femtosecond laser photo-response of Ge23Sb7S70 films.
Optics express Nov, 2008 | Pubmed ID: 19030094
Fabrication and testing of planar chalcogenide waveguide integrated microfluidic sensor.
Optics express Mar, 2007 | Pubmed ID: 19532465
Si-CMOS-compatible lift-off fabrication of low-loss planar chalcogenide waveguides.
Optics express Sep, 2007 | Pubmed ID: 19547543
Low-loss high-index-contrast planar waveguides with graded-index cladding layers.
Optics express Oct, 2007 | Pubmed ID: 19550736
Design of nanoslotted photonic crystal waveguide cavities for single nanoparticle trapping and detection.
Optics letters Nov, 2009 | Pubmed ID: 19881624
Optical loss reduction in high-index-contrast chalcogenide glass waveguides via thermal reflow.
Optics express Jan, 2010 | Pubmed ID: 20173975
Cavity-enhanced multispectral photodetector using phase-tuned propagation: theory and design.
Optics letters Mar, 2010 | Pubmed ID: 20195338
Resonant cavity-enhanced photosensitivity in As2S3 chalcogenide glass at 1550 nm telecommunication wavelength.
Optics letters Mar, 2010 | Pubmed ID: 20237628
Resonant-cavity-enhanced mid-infrared photodetector on a silicon platform.
Optics express Jun, 2010 | Pubmed ID: 20588417
Athermal operation of silicon waveguides: spectral, second order and footprint dependencies.
Optics express Aug, 2010 | Pubmed ID: 20721149
Ultra-sensitive chemical vapor detection using micro-cavity photothermal spectroscopy.
Optics express Oct, 2010 | Pubmed ID: 20941119
Integrated chalcogenide waveguide resonators for mid-IR sensing: leveraging material properties to meet fabrication challenges.
Optics express Dec, 2010 | Pubmed ID: 21165023
Simulation of an erbium-doped chalcogenide micro-disk mid-infrared laser source.
Optics express Jun, 2011 | Pubmed ID: 21716429
Towards universal enrichment nanocoating for IR-ATR waveguides.
Chemical communications (Cambridge, England) Aug, 2011 | Pubmed ID: 21734984
Design and fabrication of high-index-contrast self-assembled texture for light extraction enhancement in LEDs.
Optics express Jul, 2011 | Pubmed ID: 21747537
Photo-induced trimming of coupled ring-resonator filters and delay lines in As2S3 chalcogenide glass.
Optics letters Oct, 2011 | Pubmed ID: 22002366
Engineering broadband and anisotropic photoluminescence emission from rare earth doped tellurite thin film photonic crystals.
Optics express Jan, 2012 | Pubmed ID: 22330453
Double resonance 1-D photonic crystal cavities for single-molecule mid-infrared photothermal spectroscopy: theory and design.
Optics letters Apr, 2012 | Pubmed ID: 22513667
Light trapping limits in plasmonic solar cells: an analytical investigation.
Optics express Jul, 2012 | Pubmed ID: 22828618
Chip-scale Mid-Infrared chemical sensors using air-clad pedestal silicon waveguides.
Lab on a chip Jun, 2013 | Pubmed ID: 23620303
Demonstration of high-Q mid-infrared chalcogenide glass-on-silicon resonators.
Optics letters May, 2013 | Pubmed ID: 23632521
Demonstration of mid-infrared waveguide photonic crystal cavities.
Optics letters Aug, 2013 | Pubmed ID: 23903140
Heterogeneously integrated silicon photonics for the mid-infrared and spectroscopic sensing.
ACS nano Jul, 2014 | Pubmed ID: 24884013
Parasitic loss suppression in photonic and plasmonic photovoltaic light trapping structures.
Optics express Jun, 2014 | Pubmed ID: 24978082
Foldable and Cytocompatible Sol-gel TiO2 Photonics.
Scientific reports , 2015 | Pubmed ID: 26344823
Diffractive broadband coupling into high-Q resonant cavities.
Optics letters May, 2015 | Pubmed ID: 26393744
Low-loss photonic device in Ge-Sb-S chalcogenide glass.
Optics letters Jul, 2016 | Pubmed ID: 27367109
Spencer Novak1,
Pao-Tai Lin2,3,
Cheng Li4,
Nikolay Borodinov1,
Zhaohong Han5,
Corentin Monmeyran5,
Neil Patel5,
Qingyang Du5,
Marcin Malinowski4,
Sasan Fathpour4,
Chatdanai Lumdee4,
Chi Xu4,
Pieter G. Kik4,
Weiwei Deng6,
Juejun Hu7,
Anuradha Agarwal7,
Igor Luzinov1,
Kathleen Richardson4
1Department of Materials Science and Engineering, Clemson University,
2Department of Materials Science and Engineering, Texas A&M University,
3Department of Electrical and Computer Engineering, Texas A&M University,
4College of Optics and Photonics, Center for Research and Education in Optics and Lasers (CREOL), University of Central Florida,
5Department of Materials Science and Engineering, Massachusetts Institute of Technology,
6Department of Mechanical Engineering, Virginia Polytechnic Institute,
7Microphotonics Center, Massachusetts Institute of Technology
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