A. Hawkins (US) ECEn Department, Brigham Young University, 459 Clyde Building
ECEn Department, Brigham Young University, 459 Clyde BuildingAuthor Of 3 Presentations
(NANO) Nanophotonics
MB4.3 - MULTIPLEXED DETECTION OF SINGLE ANTIBIOTIC DRUG-RESISTANT PLASMIDS USING MULTIMODE INTERFERENCE WAVEGUIDE BASED OPTOFLUIDIC CHIP
Presentation Type
Contributed Submission
Authors
- G. Gopalakrishnan Meena (US) University of California Santa Cruz
- O. Brown (US) Brigham Young University
- R. Hanson (US) Brigham Young University
- R. Wood (US) Brigham Young University
- W. Pitt (US) Brigham Young University
- A. Woolley (US) Brigham Young University
- R. Robison (US) Brigham Young University
- A. Hawkins (US) ECEn Department, Brigham Young University, 459 Clyde Building
- H. Schmidt (US) University of California, Santa Cruz
Date
09/30/2019
Time
03:30 PM - 04:45 PM
Room
El Mirador B
Duration
15 Minutes
Lecture Time
04:00 PM - 04:15 PM
Abstract
Abstract
A single multimode interference waveguide is used to create distinct spectral spot patterns on two liquid-core waveguides on an optofluidic chip. This device is used for multiplexed detection of antibiotic-resistant plasmids with single nucleic acid sensitivity.
MH4.3 - FREE SPACE EXCITATION IN OPTOFLUIDIC DEVICES FOR SINGLE PARTICLE DETECTION
Presentation Type
Contributed Submission
Authors
- M. Amin (US) School of Engineering, University of California, Santa Cruz, 1156 High Street
- M. Hamblin (US) ECEn Department, Brigham Young University
- G. Meena (US) School of Engineering, University of California, Santa Cruz, 1156 High Street
- A. Hawkins (US) ECEn Department, Brigham Young University, 459 Clyde Building
- H. Schmidt (US) University of California, Santa Cruz
Date
09/30/2019
Time
03:30 PM - 04:45 PM
Room
La Vista F
Duration
15 Minutes
Lecture Time
04:30 PM - 04:45 PM
Abstract
Abstract
Free space top-down illumination of liquid-core waveguides in an optofluidic chip is implemented by milling slits into a metal layer covering the waveguide channel. Detection of single microbeads with excellent signal-to-noise ratio is demonstrated for different milling depths.
TuB2.1 - Optofluidic Waveguides - Construction and Operation
Presentation Type
Invited Submission
Date
10/01/2019
Time
10:30 AM - 12:00 PM
Room
El Mirador B
Duration
30 Minutes
Lecture Time
10:30 AM - 11:00 AM
Abstract
Abstract
Biosensors incorporating optofluidic waveguides take advantage of a full suite of integrated optical structures. Compatible with visible wavelengths, these labs-on-chip are constructed primarily from silica films on silicon substrates and include optimized liquid core, buried rib, and multi-mode-interference (MMI) waveguides.Presenter Of 1 Presentation
TuB2.1 - Optofluidic Waveguides - Construction and Operation
Presentation Type
Invited Submission
Date
10/01/2019
Time
10:30 AM - 12:00 PM
Room
El Mirador B
Duration
30 Minutes
Lecture Time
10:30 AM - 11:00 AM