Author Of 4 Presentations
TuC1.1 - OPTICAL BIOSENSING WITH SILICON-NITRIDE MICRORESONATORS
Abstract
Abstract
Silicon-nitride (SiN) microresonators have become versatile tools of linear, nonlinear, and quantum optics. In this talk, we will describe the design of SiN microresonators with adjustable dispersion and Q-factors, and will also discuss the experiments on sensing biological neurotransmitters using SiN microrings.
TuC3.3 - DEVELOPMENT OF A CASCADED UNIT-CELL CONSISTING OF CAPACITIVE GAPS AND CONDUCTING CYLINDERS
Abstract
Abstract
An experimental study on a sub-unit cell for leaky-wave antenna design is presented. Though, one unique aspect of this cell is the potential for embedding magneto-static responsive particles into the substrate to control the surface reactance. This new control is studied in this paper.
TuE4.4 - MID-INFRARED DETECTION USING A MICROWAVE RESONATOR PHOTOCONDUCTIVE ARCHITECTURE
Abstract
Abstract
In this paper, we present the microwave resonator photoconductor (MRPC), a photoconductive detector architecture which couples an active mid-infrared pixel to a Ku band microwave resonator. We compare the room temperature sensitivity of our MRPC to a standard photoconductor, and discuss the potential advantages.
WF1.4 - INVESTIGATION OF NEUROPEPTIDE Y DETECTION BY A SILICON-NITRIDE MICRORING RESONATOR
Abstract
Abstract
We fabricate and functionalize silicon-nitride microring for detecting attachment of Neuropeptide Y (NPY) molecules, commonly associated with human stress. For 4 µg/ml NPY concentration in aqueous solution we experimentally observe ~0.4 nm resonance shift.